CN101272568A - Different module activity scheduling method of GSM/TD-SCDMA double module terminal - Google Patents

Different module activity scheduling method of GSM/TD-SCDMA double module terminal Download PDF

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Publication number
CN101272568A
CN101272568A CNA2008100989899A CN200810098989A CN101272568A CN 101272568 A CN101272568 A CN 101272568A CN A2008100989899 A CNA2008100989899 A CN A2008100989899A CN 200810098989 A CN200810098989 A CN 200810098989A CN 101272568 A CN101272568 A CN 101272568A
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gsm
scdma
activity
mode
scheduling method
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CN101272568B (en
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张燕
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Beijing T3G Technology Co Ltd
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Beijing T3G Technology Co Ltd
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Abstract

The invention provides a method for dispatching different mode movement of a GSM/TD-SCDMA dual-mode terminal, which comprises the following steps: S1, sending out a request of different mode movement; S2, determining an idle period of a TD-SCDMA and mapping the idle period on a GSM; S3, notifying a corresponding different mode movement and implementation time to the GSM; S4, implementing the different mode movement in the idle period; S5, returning a result of the different mode movement. The method of the invention has the advantages that: the terminal can select a proper period under the TD-SCDMA mode to carry out effective movement to the GSM cells without generating radio frequency collision, thus laying a solid base of automatic re-selection and switching under the dual-mode.

Description

The anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal
Technical field
The present invention relates to mobile communication terminal, relate in particular to the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal.
Background technology
GSM/TD-SCDMA bimodule mobile communication technology is the focus of present 3G technology, and dual-mode terminal is meant does not automatically need the user manually to select terminal spontaneous variation according to network signal to adjust strategy at any time, selects the better quality of signal network to carry out resident.Low of the equipment cost of this kind terminal needs a cover transceiver, can avoid missing phone simultaneously when the mode switch of two kinds of networks better for user's service, thereby is that dual-mode terminal is researched and developed and user's ideal is selected.
Because automatically dual-mode terminal has only an antenna, how the time of effectively two kinds of patterns being carried out transceiver divides that to be equipped with effective activity of finishing two kinds of network signals be a very crucial problem.
Therefore how of the present invention focusing on is chosen the suitable time period in one mode another kind of pattern is carried out effectively movablely simultaneously can not producing resource contention, mainly is the conflict on the radio frequency.
Summary of the invention
The object of the invention is a kind of anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal; make terminal can under the TD-SCDMA pattern, choose the suitable time period and carry out effectively movable to the GSM sub-district and do not produce the radio frequency conflict, thereby for realizing that automatic gravity treatment and switching under two kinds of patterns lay a solid foundation.
The invention provides a kind of anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal, may further comprise the steps: step S1 sends the anomalous mode activity request; Step S2 determines the free time section and being mapped on the GSM of TD-SCDMA; Step S3, notice corresponding anomalous mode activity of GSM and time of implementation; Step S4 is in the activity of described free time section execution anomalous mode; Step S5 returns the anomalous mode action result.
As the anomalous mode activity scheduling method of the described GSM/TD-SCDMA dual-mode terminal of the preferred embodiment of the present invention, step S2 may further comprise the steps: steps A, assess the time slot that all TD-SCDMA activities take; Step B forms the free time section with unappropriated TD-SCDMA time slot; Step C is mapped to GSM with this TD-SCDMA free time section and goes up and scheduling GSM activity.
Anomalous mode activity scheduling method as the described GSM/TD-SCDMA dual-mode terminal of the preferred embodiment of the present invention, steps A comprises following substep: steps A 1: judge whether the shared time slot of this uncertain activity can be used for the GSM scheduling, if judged result is for being, then enter steps A 2, if judged result then enters steps A 3 for not; Steps A 2: should activity hang up, GSM takies radio frequency during this hang-up, enters steps A 3 then; Steps A 3: carry out this activity, return steps A 1 then.
As the anomalous mode activity scheduling method of the described GSM/TD-SCDMA dual-mode terminal of the preferred embodiment of the present invention, described free time section be that upstream data sends and reserves Timing Advance.
As the anomalous mode activity scheduling method of the described GSM/TD-SCDMA dual-mode terminal of the preferred embodiment of the present invention, the assessment of all time slot is no more than three subframes in advance and carries out in steps A.
As the anomalous mode activity scheduling method of the described GSM/TD-SCDMA dual-mode terminal of the preferred embodiment of the present invention, in step B, select the free time section of two maximums.
As the anomalous mode activity scheduling method of the described GSM/TD-SCDMA dual-mode terminal of the preferred embodiment of the present invention, in step B, with the idle time slot of two continuous T D-SCDMA subframes link up form one free time section.
As the anomalous mode activity scheduling method of the described GSM/TD-SCDMA dual-mode terminal of the preferred embodiment of the present invention, in step B, force to take the time slot of some TD-SCDMA task.
As the anomalous mode activity scheduling method of the described GSM/TD-SCDMA dual-mode terminal of the preferred embodiment of the present invention, in step C, comprise following substep: step C1, determine time reference point; Step C2 carries out corresponding time map based on time reference point.
The invention has the advantages that to make terminal can TD-SCDMA choose the effective activity that the suitable time period carries out the GSM sub-district under the pattern and do not produce the radio frequency conflict, thereby for realizing that automatic gravity treatment and switching under two kinds of patterns lay a solid foundation.
Description of drawings
Fig. 1 is the flow chart according to the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention;
Fig. 2 is the substep flow chart according to the step S2 of the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention;
Fig. 3 is the sequential schematic diagram according to the time slot assessment of the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention;
Fig. 4 is the process chart under the situation that does not have predictability according to the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention in the activity that participates in the time slot assessment;
Fig. 5 is the schematic diagram that Timing Advance is reserved in free time section upstream data transmission;
Fig. 6 is a schematic diagram of selecting idle time slot in the same TD-SCDMA subframe;
Fig. 7 is the schematic diagram that the idle time slot of two TD-SCDMA subframes connects and composes the free time section;
Fig. 8 constitutes the schematic diagram of free time section for the time slot that can force to take some TD-SCDMA task;
Fig. 9 is the flow chart according to the substep C of the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention;
Figure 10 is according to the schematic diagram of determining time reference point among the substep C of the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention;
Figure 11 is according to the schematic diagram that carries out corresponding time map among the substep C of the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention based on time reference point; And
Figure 12 is for carrying out the adjustment of time reference point and the schematic diagram of corresponding time map based on time reference point among the substep C according to the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention.
Embodiment
The invention provides a kind of anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal, Fig. 1 is the flow chart according to the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention, its basic principle is may further comprise the steps: step S1 sends the anomalous mode activity request; Step S2 determines the free time section and being mapped on the GSM of TD-SCDMA; Step S3, notice corresponding anomalous mode activity of GSM and time of implementation; Step S4 is in the activity of described free time section execution anomalous mode; Step S5 returns the anomalous mode action result.
Wherein, Fig. 2 is the substep flow chart according to the step S2 of the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention, and as shown in Figure 2, step S2 comprises following substep: substep A, assess the time slot that all TD-SCDMA activities take.Do not having GSM to measure under the situation of configuration, terminal physical layer is assessed the time slot that all TD-SCDMA activities take.Described active packet paging receiving reads broadcasting, to the measurement of TD-SCDMA sub-district, to the transmission of upstream data, to reception of downlink data etc.Substep B forms the free time section with unappropriated TD-SCDMA time slot.Substep C is mapped to GSM with this TD-SCDMA free time section and goes up and scheduling GSM activity.
Following with reference to detailed each step introduced according to the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention of accompanying drawing, wherein Fig. 3 is the sequential schematic diagram according to the time slot assessment of the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention, Fig. 4 is the process chart under the situation that does not have predictability according to the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention in the activity that participates in the time slot assessment, Fig. 5 is the schematic diagram that Timing Advance is reserved in free time section upstream data transmission, and Fig. 6 is a schematic diagram of selecting idle time slot in the same TD-SCDMA subframe; Fig. 7 is the schematic diagram that the idle time slot of two TD-SCDMA subframes connects and composes the free time section; Fig. 8 constitutes the schematic diagram of free time section for the time slot that can force to take some TD-SCDMA task; Fig. 9 is the flow chart according to the substep C of the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention; Figure 10 is according to the schematic diagram of determining time reference point among the substep C of the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention; Figure 11 is according to the schematic diagram that carries out corresponding time map among the substep C of the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention based on time reference point, and Figure 12 is according to the schematic diagram that carries out corresponding time map among the substep C of the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention based on time reference point.
As shown in Figure 3; in the steps A of the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal according to the present invention; all time slot assessments all shift to an earlier date N subframe and carry out; promptly begin the time slot assessment from subframe M; wherein; subframe M is that TD-SCDMA holds the mutual time of holding with GSM to subframe M+N, therefore requires the activity of participation time slot assessment all to have predictability, i.e. N<=3.
Fig. 4 is the process chart under the situation that does not have predictability according to the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention in the activity that participates in the time slot assessment.For uncertain activity, two kinds of processing modes are arranged according to this movable priority.
First kind of situation, the time slot of this uncertain activity is assumed to be always and takies, and then carries out this activity, so this time slot is not used in the GSM scheduling.
Second kind of situation, the time slot of this uncertain activity are assumed to be idle always, then this time slot are used for the GSM scheduling.For preventing the radio frequency conflict, this activity is suspended a period of time earlier, and begins to change the time slot scheduling of GSM from this subframe, waits for after the F frame that GSM stops to take radio frequency on this time slot and just recover this activity.The prerequisite of second kind of situation is the normal operation that the hang-up of this activity can not have influence on whole terminal.
According to above-mentioned two kinds of different situations, as shown in Figure 4, do not have the handling process under the situation of predictability in the activity that participates in the time slot assessment according to the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention, may further comprise the steps.
Steps A 1: judge whether the shared time slot of this uncertain activity can be used for the GSM scheduling.
If the time slot of this uncertain activity is assumed to be idle always, then this time slot is used for the GSM scheduling; Otherwise, then carry out this activity, so this time slot is not used in the GSM scheduling.
Steps A 2: should activity hang up, GSM time slot scheduling during hanging up enters steps A 3 then.
Should activity hang up after several subframes, GSM stops on the time slot of this hang-up and takies radio frequency, recovers this activity then, promptly enters steps A 3.
Steps A 3: carry out this activity, return steps A 1 then.
In addition, as shown in Figure 5, free time section need be that upstream data sends and reserve Timing Advance T aThereby, can not produce harmful effect to up transmission.
In step B,,, only select wherein maximum two, as shown in Figure 6 for avoiding frequent switching if a plurality of free time section is arranged within the frame.
Simultaneously, for make one section free time section long as much as possible, can link up the idle time slot section of two TD-SCDMA subframes and form a big free time section, as shown in Figure 7, idle time slot TS0, the TS1 of the idle time slot TS6 of previous T D-SCDMA subframe and back one TD-SCDMA subframe link up and constitute a big free time section.
In addition, if the interior all idle time slot of subframe is all very short, can force to take the time slot of some TD-SCDMA task, this TD-SCDMA task will be suspended a period of time, and its prerequisite is to hang up this TD-SCDMA task can the flow process of TD-SCDMA not to be made a big impact.For example, when traffic carrying capacity is bigger, the transmission of up-downgoing data can take most of time slot, concrete condition as shown in Figure 8, TS0 will be used for carrying out the RSCP measurement of TD-SCDMA sub-district originally, be suspended a period of time now,, finish again up to required GSM task and recover so that TS0 is available as GSM measurement scheduling.
Fig. 9 is the flow chart according to the substep of the step C of the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention; as shown in Figure 9, the step C according to the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal of the present invention comprises step C1 and C2.
Step C1 determines time reference point.
The final purpose of determining time reference point is to use the time of the Time Calculation GSM of TD-SCDMA, promptly can accurately be mapped to a period of time of TD-SCDMA system on the gsm system, all be to be that unit accurately calculates with 5ms for the mapping process of time period.
As shown in figure 10, determined the position of the residing GSM subframe of beginning of certain TD-SCDMA subframe before scheduling GSM activity, establishing this TD-SCDMA subframe numbers is M 1, its residing GSM frame number is N, time reference point is (F n, Q b).F wherein n=N.
Step C2 carries out corresponding time map based on time reference point.
As Figure 11 and shown in Figure 12, the TD-SCDMA subframe numbers is M 2+1Subframe on one section free time section L is arranged 1Can be used for the GSM activity, as shown in the figure, L then 2=(M 2+1-M 1) * T TD-SCDMA, T wherein TD-SCDMALength for a subframe of TD-SCDMA.Being scaled the GSM time is (L 2/ T GSM, L 2%T GSM), the starting point of idle time slot is mapped to GSM and is (F on the time N ', Q B '), F wherein N '=N+L 2/ T GSM, Q B '=Q b+ L 2%T GSMIf, Q B '=Q b+ L 2%T GSM>T GSM, F then N '=N+L 2/ T GSM+ 1, Q B '=Q b+ L 2%T GSM-T GSM
In step C, TD-SCDMA holds the adjustment of any frame length will cause time reference point is adjusted.Wherein there are following two kinds of situations: first, the DSP of TD-SCDMA end is in order to keep synchronously with the base station, sometimes need to adjust frame length, if still calculated according to former time reference point, can produce wrong mapping relations, the adjustment of therefore any TD-SCDMA end frame length all will be reflected to the adjustment of time reference point; The second, intra-system handover switches to another sub-district from a sub-district, and the OTD of described two sub-districts (Observed Time Difference, Measuring Time is poor) also causes the adjustment to time reference point.
More than; be for those skilled in the art understand the present invention, and to the detailed description that the present invention carried out, but can expect; in the scope that does not break away from claim of the present invention and contained, can also make other variation and modification, these variations and revising all in protection scope of the present invention.

Claims (9)

1. the anomalous mode activity scheduling method of a GSM/TD-SCDMA dual-mode terminal is characterized in that, may further comprise the steps:
Step S1 sends the anomalous mode activity request;
Step S2 determines the free time section and being mapped on the GSM of TD-SCDMA;
Step S3, notice corresponding anomalous mode activity of GSM and time of implementation;
Step S4 is in the activity of described free time section execution anomalous mode;
Step S5 returns the anomalous mode action result.
2. the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal as claimed in claim 1 is characterized in that step S2 may further comprise the steps:
Steps A is assessed the time slot that all TD-SCDMA activities take;
Step B forms the free time section with unappropriated TD-SCDMA time slot;
Step C is mapped to GSM with this TD-SCDMA free time section and goes up and scheduling GSM activity.
3. the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal as claimed in claim 2 is characterized in that, steps A comprises following substep:
Steps A 1: judge whether the shared time slot of this uncertain activity can be used for the GSM scheduling, if judged result for being, then enters steps A 2, if judged result then enters steps A 3 for not;
Steps A 2: should activity hang up, GSM takies radio frequency during this hang-up, enters steps A 3 then;
Steps A 3: carry out this activity, return steps A 1 then.
4. the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal as claimed in claim 2 is characterized in that, free time section be that upstream data send to be reserved Timing Advance.
5. the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal as claimed in claim 2 is characterized in that, the assessment of all time slot is no more than three subframes in advance and carries out in steps A.
6. the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal as claimed in claim 2 is characterized in that, in step B, selects the free time section of two maximums.
7. the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal as claimed in claim 2 is characterized in that, in step B, with the idle time slot of two continuous T D-SCDMA subframes link up form one free time section.
8. the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal as claimed in claim 2 is characterized in that, in step B, forces to take the time slot of some TD-SCDMA task.
9. the anomalous mode activity scheduling method of GSM/TD-SCDMA dual-mode terminal as claimed in claim 2 is characterized in that, comprises following substep in step C:
Step C1 determines time reference point;
Step C2 carries out corresponding time map based on time reference point.
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