CN106648876A - Running mode switching method and apparatus - Google Patents

Abstract

The invention discloses a running mode switching method and apparatus, and belongs to the field of automatic control. The method comprises the steps of receiving a mode switching operation of switching a current ith running mode, detecting whether an (i+1)th running mode belongs to a low-frequency usage mode or not, and if the (i+1)th running mode belongs to the low-frequency usage mode, re-determining the (i+1)th running mode according to a preset sequence and re-executing the operation of detecting whether the (i+1)th running mode belongs to the low-frequency usage mode or not; and if the (i+1)th running mode belongs to a high-frequency usage mode, switching to the (i+1)th running mode according to the mode switching operation. A terminal device does not perform mode switching in a preset sequence according to the mode switching operation, and a user can directly skip a running mode with a relatively low probability of selection and use and perform switching to a running mode with a relatively high probability of selection and use without manually triggering the mode switching operation to skip certain running modes, so that the running mode switching efficiency of the terminal device is improved.

Description

Operational mode switching method and device

Technical field

It relates to automation field, more particularly to a kind of operational mode switching method and device.

Background technology

The household electrical appliance such as air purifier, air-conditioning and humidifier generally include at least two operational modes, and user can lead to The control button for crossing household electrical appliance offer is switched over to the operational mode residing for household electrical appliance, then household electrical appliance receive user is made For the mode switching operation of control button, and the corresponding fortune of the control button is switched to according to the mode switching operation for receiving Row mode.

At least two operational modes that household electrical appliance include can correspond to same control button, then household electrical appliance according to Mode switching operation is switched over successively between corresponding at least two operational mode of the control button.Such as, air-conditioning is provided " wind speed " button correspond to high wind, three kinds of operational modes of apoplexy and low wind, then air-conditioning is according to the mould for acting on " wind speed " button Formula handover operation is switched over successively according to the order of high wind-apoplexy-low wind-high wind, when air-conditioning need switch to from high wind it is low During wind, it is always necessary to first switch to apoplexy from high wind, then switch to low wind, switching efficiency is relatively low.

The content of the invention

In order to solve when household electrical appliance are switched over successively between at least two operational modes, switching efficiency is relatively low to ask Topic, the disclosure provides a kind of operational mode switching method and device.The technical scheme is as follows：

According to the first aspect of the embodiment of the present disclosure, there is provided a kind of operational mode switching method, the method includes：

The mode switching operation that i-th kind of operational mode to being presently in is switched over is received, mode switching operation is used for Instruction is switched successively or cyclic switching between at least two operational modes according to preset order, and i-th kind of operational mode is Any one operational mode at least two operational modes；

Whether detection i+1 kind operational mode belongs to low frequency use pattern, and low frequency use pattern is at least two operation moulds Operational mode of the selected probability less than predetermined probability in formula；

If i+1 kind operational mode belongs to low frequency use pattern, according to preset order i+1 kind operation mould is redefined Formula, again perform detection i+1 kind operational mode whether belong to low frequency use pattern；

If i+1 kind operational mode belongs to high frequency use pattern, the operation of i+1 kind is switched to according to mode switching operation Pattern, high frequency use pattern is the operational mode that probability selected at least two operational modes reaches predetermined probability.

Optionally, detect whether i+1 kind operational mode is low frequency use pattern, including：

Whether predetermined mark is included in the corresponding operational order of detection i+1 kind operational mode, and predetermined mark is according to i-th The history frequency of usage of+a kind of operational mode meets what is generated during default low frequency condition；

If operational order includes predetermined mark, it is determined that i+1 kind operational mode belongs to low frequency use pattern；

If not including predetermined mark in operational order, it is determined that i+1 kind operational mode belongs to high frequency use pattern.

Optionally, the method also includes：

Obtain the total degree that i+1 kind operational mode is switched in predetermined amount of time；

Whether detection total degree is less than pre-determined number threshold value；

If total degree is less than pre-determined number threshold value, add predetermined in the corresponding operational order of i+1 kind operational mode Mark.

Optionally, the method also includes：

The total degree that i+1 kind operational mode is switched in predetermined amount of time is obtained, and every time in the operation of i+1 kind Operation duration during pattern；

Whether the detection operation duration ratio shared in total degree less than the number of times of scheduled duration reaches predetermined ratio threshold Value；

If the operation duration ratio shared in total degree less than the number of times of scheduled duration reaches predetermined ratio threshold value, Add predetermined mark in the corresponding operational order of i+1 kind operational mode.

Optionally, the method also includes：

Receive recovery operation；

Determine the object run pattern that recovery operation is indicated, object run pattern is low frequency use pattern；

According to recovery operation by object run mode flag be high frequency use pattern.

Optionally, the method also includes：

Receive and reset operation；

Each low frequency use pattern at least two operational modes is labeled as by high frequency according to replacement operation and uses mould Formula.

According to the second aspect of the embodiment of the present disclosure, there is provided a kind of operational mode switching device, the device includes：

Receiver module, is configured to receive the mode switching operation that i-th kind of operational mode to being presently in is switched over, Mode switching operation is used to indicate to be switched successively or cyclic switching according to preset order between at least two operational modes, I-th kind of operational mode is any one operational mode at least two operational modes；

Mode detection module, is configured to detect whether i+1 kind operational mode belongs to low frequency use pattern, low frequency is used Pattern is operational mode of the probability selected at least two operational modes less than predetermined probability；

Determining module, if being additionally configured to i+1 kind operational mode belongs to low frequency use pattern, according to preset order weight New to determine i+1 kind operational mode, again whether perform detection i+1 kind operational mode belongs to low frequency use pattern；

Handover module, if being configured to i+1 kind operational mode belongs to high frequency use pattern, according to mode switching operation Switch to i+1 kind operational mode, it is predetermined general that high frequency use pattern is that probability selected at least two operational modes reaches The operational mode of rate.

Optionally, mode detection module includes：

Detection sub-module, is configured to detect and whether include in the corresponding operational order of i+1 kind operational mode pre- calibration Know, predetermined mark is and meets default low frequency condition according to the history frequency of usage of i+1 kind operational mode that when generates；

First determination sub-module, if being configured to operational order includes predetermined mark, it is determined that i+1 kind operational mode Belong to low frequency use pattern；

Second determination sub-module, if being configured in operational order not include predetermined mark, it is determined that i+1 kind runs mould Formula belongs to high frequency use pattern.

Optionally, the device also includes：

First acquisition module, is configured to obtain the total degree that i+1 kind operational mode is switched in predetermined amount of time；

Whether number of times detection module, be configured to detect total degree less than pre-determined number threshold value；

First add module, if being configured to total degree less than pre-determined number threshold value, in i+1 kind operational mode correspondence Operational order in the predetermined mark of addition.

Optionally, the device also includes：

Second acquisition module, is configured to obtain the total degree that i+1 kind operational mode is switched in predetermined amount of time, with And every time in i+1 kind operational mode when operation duration；

Ratio detection module, is configured to detect the ratio that operation duration is shared in total degree less than the number of times of scheduled duration Whether example reaches predetermined ratio threshold value；

Second add module, if being configured to the operation duration ratio shared in total degree less than the number of times of scheduled duration Predetermined ratio threshold value is reached, then adds predetermined mark in the corresponding operational order of i+1 kind operational mode.

Optionally, the device also includes：

First receiver module, is configured to receive recovery operation；

Mode decision module, is configured to determine that the object run pattern that recovery operation is indicated, object run pattern is low Frequency use pattern；

First mark module, be configured to according to recovery operation by object run mode flag be high frequency use pattern.

Optionally, the device also includes：

Second receiver module, is configured to receive replacement operation；

Second mark module, is configured to be used each low frequency at least two operational modes according to replacement operation Mode flag is high frequency use pattern.

According to the third aspect of the embodiment of the present disclosure, there is provided a kind of operational mode switching device, the device includes：

Processor；

For storing the memorizer of processor executable；

Wherein, processor is configured to：

The mode switching operation that i-th kind of operational mode to being presently in is switched over is received, mode switching operation is used for Instruction is switched successively or cyclic switching between at least two operational modes according to preset order, and i-th kind of operational mode is Any one operational mode at least two operational modes；

Whether detection i+1 kind operational mode belongs to low frequency use pattern, and low frequency use pattern is at least two operation moulds Operational mode of the selected probability less than predetermined probability in formula；

If i+1 kind operational mode belongs to low frequency use pattern, according to preset order i+1 kind operation mould is redefined Formula, again perform detection i+1 kind operational mode whether belong to low frequency use pattern；

If i+1 kind operational mode belongs to high frequency use pattern, the operation of i+1 kind is switched to according to mode switching operation Pattern, high frequency use pattern is the operational mode that probability selected at least two operational modes reaches predetermined probability.

The technical scheme that embodiment of the disclosure is provided can include following beneficial effect：

During by the mode switching operation that switches in the i-th kind of operational mode received to being presently in, according to pre- If order determines i+1 kind operational mode, and skips the operation detecting when i+1 kind operational mode is low frequency use pattern Pattern, and redefine i+1 kind operational mode and detected, it is that high frequency uses mould until detecting i+1 kind operational mode I+1 kind operational mode is switched to during formula, due to terminal unit be not according to mode switching operation according to preset order successively Switching, it is not necessary to which manually triggering, to skip some operational modes, and can be that directly to skip selected probability less to user Operational mode switches to the higher operational mode of selected probability, improves switching effect of the terminal unit in running mode switching Rate.

It should be appreciated that the general description of the above and detailed description hereinafter are only exemplary, this can not be limited It is open.

Description of the drawings

Accompanying drawing herein is merged in description and constitutes the part of this specification, shows the enforcement for meeting the disclosure Example, and be used to together explain the principle of the disclosure in description.

Fig. 1 is a kind of flow chart of the operational mode switching method according to an exemplary embodiment；

Fig. 2 is a kind of flow chart of the operational mode switching method for implementing to exemplify according to another exemplary；

Fig. 3 is a kind of flow chart of the operational mode switching method for implementing to exemplify according to another exemplary；

Fig. 4 is a kind of flow chart of the operational mode switching method for implementing to exemplify according to another exemplary；

Fig. 5 is a kind of flow chart of the operational mode switching method for implementing to exemplify according to another exemplary；

Fig. 6 is a kind of flow chart of the operational mode switching method for implementing to exemplify according to another exemplary；

Fig. 7 is a kind of block diagram of the operational mode switching device according to an exemplary embodiment；

Fig. 8 is a kind of block diagram of the operational mode switching device for implementing to exemplify according to another exemplary；

Fig. 9 is a kind of block diagram of the operational mode switching device for implementing to exemplify according to another exemplary；

Figure 10 is a kind of block diagram of the operational mode switching device for implementing to exemplify according to another exemplary；

Figure 11 is a kind of block diagram of the operational mode switching device for implementing to exemplify according to another exemplary；

Figure 12 is a kind of block diagram of the operational mode switching device for implementing to exemplify according to another exemplary；

Figure 13 is a kind of block diagram of the operational mode switching device for implementing to exemplify according to another exemplary.

Specific embodiment

Here exemplary embodiment will be illustrated in detail, its example is illustrated in the accompanying drawings.Explained below is related to During accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represent same or analogous key element.Following exemplary embodiment Described in embodiment do not represent all embodiments consistent with the disclosure.Conversely, they be only with it is such as appended The example of the consistent apparatus and method of some aspects described in detail in claims, the disclosure.

The operational mode switching method that the disclosure each embodiment is provided, can be by including at least two operational modes Realizing, the terminal unit can be such as air-conditioning, air purifier, humidifier, electric fan, washing machine and electromagnetic oven to terminal unit Etc household electrical appliance, or such as mobile phone, panel computer, camera, portable computer and desk computer etc Electronic equipment, user can control the terminal unit by same control button to be carried out between at least two operational mode Switching.

Fig. 1 is a kind of flow chart of the operational mode switching method according to an exemplary embodiment, as shown in figure 1, The method is applied in above-mentioned terminal unit, including following several steps：

Step 101, receives the mode switching operation that i-th kind of operational mode to being presently in is switched over.

Wherein, mode switching operation is used to indicate to be cut successively according to preset order between at least two operational modes Change or cyclic switching, i-th kind of operational mode is any one operational mode at least two operational modes.

Whether step 102, detection i+1 kind operational mode belongs to low frequency use pattern.

Wherein, low frequency use pattern is operation mould of the probability selected at least two operational modes less than predetermined probability Formula, predetermined probability is systemic presupposition value or User Defined value.

Step 103, if i+1 kind operational mode belongs to low frequency use pattern, according to preset order i+1 is redefined Operational mode is planted, again whether perform detection i+1 kind operational mode belongs to low frequency use pattern.

Step 104, if i+1 kind operational mode belongs to high frequency use pattern, according to mode switching operation i-th is switched to + a kind of operational mode.

Wherein, high frequency use pattern is the operation mould that probability selected at least two operational modes reaches predetermined probability Formula.

In sum, the operational mode switching method for providing in the embodiment of the present disclosure, by receiving to being presently in I-th kind of operational mode switch over mode switching operation when, determine i+1 kind operational mode according to preset order, and Detect and the operational mode is skipped when i+1 kind operational mode is low frequency use pattern, and redefine i+1 kind operational mode Detected, until detecting when i+1 kind operational mode is high frequency use pattern i+1 kind operational mode is switched to, due to Terminal unit is not to be switched successively according to preset order according to mode switching operation, it is not necessary to which user triggers to skip manually Some operational modes, and can be directly to skip the less operational mode of selected probability to switch to the higher fortune of selected probability Row mode, improves switching efficiency of the terminal unit in running mode switching.

Fig. 2 is a kind of flow chart of the operational mode switching method for implementing to exemplify according to another exemplary, such as Fig. 2 institutes Show, the method is applied in above-mentioned terminal unit, is comprised the following steps：

Step 201, receives the mode switching operation that i-th kind of operational mode to being presently in is switched over.

Wherein, mode switching operation is used to indicate to be cut successively according to preset order between at least two operational modes Change or cyclic switching.

Optionally, preset order is the order for switching to n operational mode successively from the 1st kind of operational mode, and n is operation The sum of pattern, n >=2.Then cyclic switching is：N operation is being switched to successively from the 1st kind of operational mode according to preset order After pattern, the 1st kind of operational mode is back switched to from n operational mode, again according to preset order from the 1st kind of operational mode Proceed by and switch successively.That is, the handoff procedure of cyclic switching is：1st kind of operational mode → 2nd kind operational mode ... → (n-1)th kind of operational mode → n operational mode → 1st kind operational mode → 2nd kind operational mode ....

Optionally, preset order includes the first preset order and the second preset order, and the first preset order is from the 1st kind of fortune Row mode switches to successively the order of n operational mode, and the second preset order is to switch to successively from n operational mode The order of a kind of operational mode.Then cyclic switching is：N-th is being switched to successively from the 1st kind of operational mode according to the first preset order After planting operational mode, the 1st kind of operational mode is switched to successively from n operational mode according to the second preset order, again according to First preset order is proceeded by from the 1st kind of operational mode and switched successively.That is, mould is run in the 1st kind of operational mode → 2nd kind Formula ... → the (n-1)th kind operational mode → n operational mode → the (n-1)th kind operational mode ... → 1st kind operational mode → 2nd kind of operational mode ....

In mode handover operation is used to indicating between at least two operational modes according to from the 1st for the disclosure each embodiment Kind of operational mode switch to successively the order of n operational mode switched successively or cyclic switching as a example by illustrate.

Whether step 202, include predetermined mark in the corresponding operational order of detection i+1 kind operational mode.

Wherein, i+1 kind operational mode is the latter fortune of i-th kind of operational mode when switching over according to preset order Row mode.When mode switching operation is used to indicate between at least two operational modes according to cutting successively from the 1st kind of operational mode When the preset order for shifting to n operational mode is circulated switching, the different method of the following two kinds can be passed through according to default Order determines i+1 kind operational mode：

In the first possible implementation, terminal unit determine mod (i+1, n) plant operational mode be above-mentioned i-th+ 1 kind of operational mode, wherein, (i+1 n) is used to calculate the remainder of (i+1)/n function mod.

Such as, it is assumed that n=5, as i=3, i-th kind of operational mode is the 3rd kind of operational mode, it is determined that and mod (4,5) =4, determine that i+1 kind operational mode is the 4th kind of operational mode；For another example, as i=5, i-th kind of operational mode is the 5th kind of fortune Row mode, it is determined that and mod (6,5)=1, determine that i+1 kind operational mode is the 1st kind of operational mode.

In second possible implementation, whether terminal unit detection i reaches n, if i is not up to n, calculates i+1 And determine i+1 kind operational mode；If i reaches n, it is determined that i+1=1, the 1st kind of operational mode is determined for i+1 kind and run mould Formula.

Such as, it is assumed that n=5, as i=3, i-th kind of operational mode is the 3rd kind of operational mode, because i=3 is not up to 5, it is determined that i+1 kind operational mode is the 4th kind of operational mode；For another example, work as i=5, i.e., when i reaches n, determine that i+1 kind is transported Row mode is the 1st kind of operational mode.

Terminal unit detects i-th after i+1 kind operational mode is determined using above-mentioned any one possible implementation Whether predetermined mark is included in the corresponding operational order of+a kind of operational mode, and predetermined mark is according to i+1 kind operational mode History frequency of usage meets what is generated during default low frequency condition, makes a reservation for mark and is typically the default character of terminal unit, character string Or the mark such as code.

Step 203, if operational order includes predetermined mark, it is determined that i+1 kind operational mode belongs to low frequency and uses mould Formula.

Step 204, if i+1 kind operational mode belongs to low frequency use pattern, according to preset order i+1 is redefined Operational mode is planted, again whether perform detection i+1 kind operational mode belongs to low frequency use pattern.

Determine the possible implementation of above two of i+1 kind operational mode corresponding to terminal unit, terminal unit is pressed The method for redefining i+1 kind operational mode according to preset order includes：

Corresponding to above-mentioned the first possible implementation, i=i+1 is made, determine that (i+1, n) plant operational mode is mod Above-mentioned i+1 kind operational mode.

Such as, it is assumed that n=5, as i=5, i-th kind of operational mode is the 5th kind of operational mode, it is determined that and mod (6,5) =1, determine that i+1 kind operational mode is the 1st kind of operational mode；When it is low frequency use pattern to detect the 1st kind of operational mode, I=i+1=6 is made, then (7,5)=2, that is, it is the 2nd kind of operational mode to redefine i+1 kind operational mode to redefine mod.

Corresponding to above-mentioned second possible implementation, then i=i+1 is made, whether detection i reaches n, if i reaches n, Determine that the 1st kind of operational mode is i+1 kind operational mode.

Such as, it is assumed that n=5, as i=5, i-th kind of operational mode is the 5th kind of operational mode, because i reaches 5, then really I+1=1, i.e. i+1 kind operational mode are determined for the 1st kind of operational mode；It is low frequency use pattern when the 1st kind of operational mode is detected When, i=1 is made, because i is not up to 5, then the i+1 kind operational mode for redefining is the 2nd kind of operational mode.

Step 205, if not including predetermined mark in operational order, it is determined that i+1 kind operational mode belongs to high frequency and uses Pattern.

Step 206, if i+1 kind operational mode belongs to high frequency use pattern, according to mode switching operation i-th is switched to + a kind of operational mode.

Terminal unit switches to i+1 kind operational mode by running the corresponding operational order of i+1 kind operational mode.

In sum, the operational mode switching method for providing in the embodiment of the present disclosure, by receiving to being presently in I-th kind of operational mode switch over mode switching operation when, determine i+1 kind operational mode according to preset order, and Detect and the operational mode is skipped when i+1 kind operational mode is low frequency use pattern, and redefine i+1 kind operational mode Detected, until detecting when i+1 kind operational mode is high frequency use pattern i+1 kind operational mode is switched to, due to Terminal unit is not to be switched successively according to preset order according to mode switching operation, it is not necessary to which user triggers to skip manually Some operational modes, and can be directly to skip the less operational mode of selected probability to switch to the higher fortune of selected probability Row mode, improves switching efficiency of the terminal unit in running mode switching.

In an exemplary example, air-conditioning can receive the mode switching operation for acting on " wind speed " button, should Mode switching operation is used to indicate that air-conditioning is circulated switching according to the order of high wind-apoplexy-low wind-high wind.Assume that air-conditioning is worked as It is front in high wind, then when mode switching operation is received, whether detection apoplexy is low frequency use pattern to air-conditioning, in detecting When wind is low frequency use pattern, continue to detect whether low wind is low frequency use pattern, is high frequency use pattern when low wind is detected When, directly switch to low wind from high wind.

In the embodiment shown in Figure 2, terminal unit can directly be skipped selected during running mode switching Probability less than predetermined probability low frequency use pattern, when terminal unit need from a certain low frequency use pattern when, Ke Yitong Cross following method and some operational mode for being marked as low frequency use pattern is labeled as into high frequency use pattern, as shown in figure 3, Including following several steps：

Step 301, receives recovery operation.

Step 302, determines the object run pattern that recovery operation is indicated, object run pattern is low frequency use pattern.

Terminal unit determines that the method for object run pattern includes the possible implementation of the following two kinds：

In the first possible implementation, terminal unit show n kind operational modes, and receive act on target fortune The recovery operation of row mode, then terminal unit determine that the operational mode that recovery operation acted on is object run pattern.Such as, eventually End equipment includes " high wind ", " apoplexy " and " low wind " three kinds of operational modes, wherein, high wind and low wind are high frequency use patterns, in Wind is low frequency use pattern, and after these three operational modes are shown, user selects apoplexy and touches terminal unit by terminal unit Recovery operation is sent out, then terminal unit determines that the apoplexy that recovery operation is acted on is object run pattern.

In second possible implementation, the recovery operation that terminal unit is received is to act on for being presently in The recovery operation of i kind operational modes, then terminal unit determine i+1 kind operational mode be object run pattern.Such as, terminal sets It is standby to include " high wind ", " apoplexy " and " low wind " three kinds of operational modes, wherein, high wind and low wind are high frequency use patterns, and apoplexy is Low frequency use pattern, terminal unit receives recovery operation, it is determined that the next operational mode of high wind when in high wind, Namely apoplexy is object run pattern.It should be noted that when actually realizing, it is also possible to be to determine the i-th-a kind operational mode For object run pattern, or determine that other operational modes that there is predetermined relationship with i-th kind of operational mode are object run mould Formula, the present embodiment is not limited this.

Step 303, according to recovery operation by object run mode flag be high frequency use pattern.

Wherein, terminal unit is implemented as object run mode flag for high frequency use pattern according to recovery operation：Delete Except the predetermined mark in the corresponding operational order of object run pattern.

In sum, the operational mode switching method that the embodiment of the present disclosure is provided, terminal unit is receiving recovery operation When some operational mode for being marked as low frequency use pattern can be labeled as high frequency use pattern, improve terminal unit While switching efficiency in running mode switching, still ensure that all operational modes can be used normally, do not affect end The normal operation of end equipment.

In the embodiment shown in Figure 2, terminal unit by the following method can also use all low frequencies that are marked as The operational mode of pattern is labeled as high frequency use pattern, as shown in figure 4, including following several steps：

Step 401, receives and resets operation.

Step 402, height is labeled as according to operation is reset by each the low frequency use pattern at least two operational modes Frequency use pattern.

Wherein, terminal unit is labeled as each the low frequency use pattern at least two operational modes according to operation is reset High frequency use pattern is implemented as：Delete the predetermined mark in the corresponding operational order of all operational modes.

In sum, the operational mode switching method that the embodiment of the present disclosure is provided, terminal unit is receiving replacement operation When all operational modes for being marked as low frequency use pattern can be labeled as high frequency use pattern, improve terminal unit exist While switching efficiency during running mode switching, still ensure that all operational modes can be used normally, do not affect terminal The normal operation of equipment.

In the arbitrary shown embodiments of above-mentioned Fig. 2-4, terminal unit can detect the use of operational mode in running The frequency, so as to generating and adding in the corresponding operational order of the operational mode mark is made a reservation for, then the method also includes following step Suddenly, as shown in Figure 5：

Step 501, obtains the total degree that i+1 kind operational mode is switched in predetermined amount of time.

Optionally, terminal unit is spaced detects whether the frequency of usage of i+1 kind operational mode meets at predetermined time intervals Default low frequency condition, the duration of predetermined time interval is by systemic presupposition or User Defined.Then optional, predetermined amount of time is to work as Time period between front moment and the last moment for obtaining the total degree for switching to i+1 kind operational mode, the scheduled time The duration of section is equal with the duration of predetermined time interval.Such as, terminal unit detected making for i+1 kind operational mode every 10 days Whether meet default low frequency condition with the frequency, then terminal unit is obtained in nearest 10 days and switches to the total of i+1 kind operational mode Number of times.Or it is optional, predetermined amount of time be current time before time period, such as, terminal unit obtains history and switches to The total degree of i+1 kind operational mode.

Whether step 502, detection total degree is less than pre-determined number threshold value.

Wherein, pre-determined number threshold value is systemic presupposition value or User Defined value.

Step 503, if total degree is less than pre-determined number threshold value, in the corresponding operational order of i+1 kind operational mode The predetermined mark of addition.

When total degree is less than pre-determined number threshold value, the history frequency of usage for determining i+1 kind operational mode meets default Low frequency condition, then add predetermined mark in the corresponding operational order of i+1 kind operational mode.

It should be noted that the schematic diagram shown in Fig. 5 was performed with step 501- step 503 before above-mentioned steps 201 being Example, but when actually realizing, step 501- step 503 can also simultaneously be performed with step 201, it is only necessary to before step 202 Perform.

Optionally, the embodiment shown in above-mentioned Fig. 5 can be to be implemented as following several steps, as shown in Figure 6 by replacement：

Step 601, obtains the total degree that i+1 kind operational mode is switched in predetermined amount of time, and every time in i-th Operation duration during+a kind of operational mode.

Wherein, in i+1 kind operational mode when operation duration be to switch to i+1 kind fortune from i-th kind of operational mode The moment of row mode, to the duration switched to from i+1 kind operational mode between the moment of the i-th+2 kinds operational modes.

Step 602, detects whether the operation duration ratio shared in total degree less than the number of times of scheduled duration reaches pre- Certainty ratio threshold value.

Wherein, scheduled duration and predetermined ratio threshold value are by systemic presupposition or User Defined.

Step 603, if the operation duration ratio shared in total degree less than the number of times of scheduled duration reaches predetermined ratio Threshold value, then add predetermined mark in the corresponding operational order of i+1 kind operational mode.

When running the shared ratio in total degree of the long number of times less than scheduled duration reaches predetermined ratio threshold value, really The history frequency of usage for determining i+1 kind operational mode meets default low frequency condition, then in the corresponding operation of i+1 kind operational mode Add predetermined mark in instruction.

In an exemplary example, it is assumed that scheduled duration is 1 minute, and predetermined ratio threshold value is 70%, and air-conditioning can be with Switching is circulated between high wind, three kinds of operational modes of apoplexy and low wind.Hypothesis air-conditioning is obtained in switching in nearest 10 days The number of times of wind is 20 times, wherein there is 15 time of staying to be 1 second, has 3 time of staying to be 3 seconds, has 1 time of staying to be 1 little When, there is 1 time of staying to be 20 minutes, then operation duration is 18 times less than the number of times of scheduled duration, and operation duration is less than predetermined The shared ratio in total degree of the number of times of duration reaches predetermined ratio threshold value for 18/20=90%, it is determined that the history of apoplexy Frequency of usage meets default low frequency condition, and predetermined mark is added in the corresponding operational order of apoplexy.

It should be noted that the schematic diagram shown in Fig. 6 was performed with step 601- step 603 before above-mentioned steps 201 being Example, but when actually realizing, step 601- step 603 can also simultaneously be performed with step 201, it is only necessary to before step 202 Perform.

In sum, the operational mode switching method that the embodiment of the present disclosure is provided, terminal unit is selected according to operational mode Whether number of times and each operational mode with the duration comprehensive descision of operational mode operation are low frequency use patterns, are carried The high accuracy for judging.

It is following for disclosure device embodiment, can be used for performing method of disclosure embodiment.For disclosure device reality The details not disclosed in example is applied, method of disclosure embodiment is refer to.

Fig. 7 is a kind of block diagram of the operational mode switching device according to an exemplary embodiment, as shown in fig. 7, should Device is included but is not limited to：

Receiver module 710, is configured to perform above-mentioned steps 101 and step 201.

Mode detection module 720, is configured to perform above-mentioned steps 102.

Determining module 730, is configured to perform above-mentioned steps 103 and step 204.

Handover module 740, is configured to perform above-mentioned steps 104 and step 206.

Optionally, mode detection module 720 includes following several submodules, as shown in Figure 8：

Detection sub-module 721, is configured to perform above-mentioned steps 202.

First determination sub-module 722, is configured to perform above-mentioned steps 203.

Second determination sub-module 723, is configured to perform above-mentioned steps 205.

Optionally, the device also includes following several modules, as shown in Figure 9：

First acquisition module 910, is configured to perform above-mentioned steps 501.

Number of times detection module 920, is configured to perform above-mentioned steps 502.

First add module 930, is configured to perform above-mentioned steps 503.

Optionally, the device also includes following several modules, as shown in Figure 10：

Second acquisition module 1010, is configured to perform above-mentioned steps 601.

Ratio detection module 1020, is configured to perform above-mentioned steps 602.

Second add module 1030, is configured to perform above-mentioned steps 603.

Optionally, the device also includes following several modules, as shown in figure 11：

First receiver module 1110, is configured to perform above-mentioned steps 301.

Determining module 1120, is configured to perform above-mentioned steps 302.

First mark module 1130, is configured to perform above-mentioned steps 303.

Optionally, the device also includes following several modules, as shown in above-mentioned Figure 12：

Second receiver module 1210, is configured to perform above-mentioned steps 401.

Second mark module 1220, is configured to perform above-mentioned steps 402.

In sum, the operational mode switching device that the embodiment of the present disclosure is provided, by receiving to being presently in During the mode switching operation that i-th kind of operational mode is switched over, according to preset order i+1 kind operational mode is determined, and in inspection Measure and the operational mode skipped when i+1 kind operational mode is low frequency use pattern, and redefine i+1 kind operational mode Row detection, switches to i+1 kind operational mode, due to end until detecting when i+1 kind operational mode is high frequency use pattern End equipment is not to be switched successively according to preset order according to mode switching operation, it is not necessary to which user triggers to skip certain manually A little operational modes, and can be directly to skip the less operational mode of selected probability to switch to the higher operation of selected probability Pattern, improves switching efficiency of the terminal unit in running mode switching.

With regard to the device in above-described embodiment, wherein modules perform the concrete mode of operation in relevant the method Embodiment in be described in detail, explanation will be not set forth in detail herein.

The exemplary embodiment of the disclosure one provides a kind of operational mode switching device, can realize the fortune that the disclosure is provided Row mode changing method, the device includes：Processor, the memorizer for storing processor executable；

Wherein, processor is configured to：

The mode switching operation that i-th kind of operational mode to being presently in is switched over is received, mode switching operation is used for Instruction is switched successively or cyclic switching between at least two operational modes according to preset order, and i-th kind of operational mode is Any one operational mode at least two operational modes；

Whether detection i+1 kind operational mode belongs to low frequency use pattern, and low frequency use pattern is at least two operation moulds Operational mode of the selected probability less than predetermined probability in formula；

If i+1 kind operational mode belongs to low frequency use pattern, according to preset order i+1 kind operation mould is redefined Formula, again perform detection i+1 kind operational mode whether belong to low frequency use pattern；

If i+1 kind operational mode belongs to high frequency use pattern, the operation of i+1 kind is switched to according to mode switching operation Pattern, high frequency use pattern is the operational mode that probability selected at least two operational modes reaches predetermined probability.

Figure 13 is a kind of block diagram of the operational mode switching device according to an exemplary embodiment.For example, device 1300 can be air-conditioning, air purifier, washing machine, electromagnetic oven, mobile phone and computer etc..

With reference to Figure 13, device 1300 can include following one or more assemblies：Process assembly 1302, memorizer 1304, Power supply module 1306, multimedia groupware 1308, and input/output (I/O) interface 1310.

The integrated operation of the usual control device 1300 of process assembly 1302.Process assembly 1302 can include one or more Processor 1312 carrys out execute instruction, to complete all or part of step of above-mentioned method.Additionally, process assembly 1302 can be wrapped One or more modules are included, the interaction being easy between process assembly 1302 and other assemblies.For example, process assembly 1302 can be wrapped Multi-media module is included, to facilitate the interaction between multimedia groupware 1308 and process assembly 1302.

Memorizer 1304 is configured to store various types of data to support the operation in device 1300.These data Example includes the instruction of any application program for operating on device 1300 or method.Memorizer 1304 can be by any class The volatibility or non-volatile memory device of type or combinations thereof realization, such as static RAM (SRAM), electricity Erasable Programmable Read Only Memory EPROM (EEPROM), Erasable Programmable Read Only Memory EPROM (EPROM), programmable read only memory (PROM), read only memory (ROM), magnetic memory, flash memory, disk or CD.

Power supply module 1306 provides electric power for the various assemblies of device 1300.Power supply module 1306 can include power management System, one or more power supplys, and other generate, manage and distribute the component that electric power is associated with for device 1300.

Multimedia groupware 1308 is included in the screen of one output interface of offer between device 1300 and user.At some In embodiment, screen can include liquid crystal display (LCD) and touch panel (TP).If screen includes touch panel, screen Touch screen is may be implemented as, to receive the input signal from user.Touch panel includes one or more touch sensors With the gesture on sensing touch, slip and touch panel.Touch sensor can not only sensing touch or sliding action border, But also the detection persistent period related to touch or slide and pressure.

I/O interfaces 1310 are that interface, above-mentioned peripheral interface module are provided between process assembly 1302 and peripheral interface module Can be keyboard, click wheel, button etc..These buttons may include but be not limited to：Home button, volume button, start button and Locking press button.

In the exemplary embodiment, device 1300 can be by one or more application specific integrated circuits (ASIC), numeral Signal processor (DSP), digital signal processing appts (DSPD), PLD (PLD), field programmable gate array (FPGA), controller, microcontroller, microprocessor or other electronic components realizations, for performing above-mentioned operational mode switching side Method.

In the exemplary embodiment, a kind of non-transitorycomputer readable storage medium including instruction, example are additionally provided Such as include the memorizer 1304 of instruction, above-mentioned instruction can be performed to complete above-mentioned operational mode by the processor 1318 of device 1300 Changing method.For example, non-transitorycomputer readable storage medium can be ROM, random access memory (RAM), CD-ROM, Tape, floppy disk and optical data storage devices etc..

Those skilled in the art will readily occur to its of the disclosure after considering description and putting into practice invention disclosed herein Its embodiment.The application is intended to any modification, purposes or the adaptations of the disclosure, these modifications, purposes or Person's adaptations follow the general principle of the disclosure and including the undocumented common knowledge in the art of the disclosure Or conventional techniques.Description and embodiments are considered only as exemplary, and the true scope of the disclosure and spirit are by following Claim is pointed out.

It should be appreciated that the disclosure is not limited to the precision architecture for being described above and being shown in the drawings, and And can without departing from the scope carry out various modifications and changes.The scope of the present disclosure is only limited by appended claim.

Claims (13)

1. a kind of operational mode switching method, it is characterised in that methods described includes：

The mode switching operation that i-th kind of operational mode to being presently in is switched over is received, the mode switching operation is used for Instruction is switched successively or cyclic switching between at least two operational modes according to preset order, i-th kind of operation mould Formula is any one operational mode at least two operational mode；

Whether detection i+1 kind operational mode belongs to low frequency use pattern, and the low frequency use pattern is at least two fortune Operational mode of the selected probability less than predetermined probability in row mode；

If the i+1 kind operational mode belongs to the low frequency use pattern, redefine according to the preset order described I+1 kind operational mode, performs again whether the detection i+1 kind operational mode belongs to low frequency use pattern；

If the i+1 kind operational mode belongs to high frequency use pattern, according to the mode switching operation described i-th is switched to + a kind of operational mode, the high frequency use pattern is that probability selected at least two operational mode reaches described making a reservation for The operational mode of probability.

2. method according to claim 1, it is characterised in that whether the detection i+1 kind operational mode is that low frequency makes With pattern, including：

Detect and whether include in the corresponding operational order of the i+1 kind operational mode predetermined mark, the predetermined mark is root Generate when meeting default low frequency condition according to the history frequency of usage of the i+1 kind operational mode；

If the operational order includes the predetermined mark, it is determined that the i+1 kind operational mode belongs to the low frequency to be made Use pattern；

If not including the predetermined mark in the operational order, it is determined that the i+1 kind operational mode belongs to the high frequency Use pattern.

3. method according to claim 2, it is characterised in that methods described also includes：

Obtain the total degree that the i+1 kind operational mode is switched in the predetermined amount of time；

Detect the total degree whether less than pre-determined number threshold value；

If the total degree is less than the pre-determined number threshold value, refer in the corresponding operation of the i+1 kind operational mode Add the predetermined mark in order.

4. method according to claim 2, it is characterised in that methods described also includes：

The total degree that the i+1 kind operational mode is switched in the predetermined amount of time is obtained, and is in institute every time State operation duration during i+1 kind operational mode；

Whether the detection operation duration ratio shared in the total degree less than the number of times of scheduled duration reaches predetermined ratio threshold Value；

If the operation duration ratio shared in the total degree less than the number of times of the scheduled duration reaches the predetermined ratio Threshold value, then add the predetermined mark in the corresponding operational order of the i+1 kind operational mode.

5. according to the arbitrary described method of Claims 1-4, it is characterised in that methods described also includes：

Receive recovery operation；

Determine the object run pattern that the recovery operation is indicated, the object run pattern is the low frequency use pattern；

According to the recovery operation by the object run mode flag be the high frequency use pattern.

6. according to the arbitrary described method of Claims 1-4, it is characterised in that methods described also includes：

Receive and reset operation；

Each described low frequency use pattern at least two operational mode is labeled as by institute according to the replacement operation State high frequency use pattern.

7. a kind of operational mode switching device, it is characterised in that described device includes：

Receiver module, is configured to receive the mode switching operation that i-th kind of operational mode to being presently in is switched over, described Mode switching operation is used to indicate to be switched successively or cyclic switching according to preset order between at least two operational modes, I-th kind of operational mode is any one operational mode at least two operational mode；

Mode detection module, is configured to detect whether i+1 kind operational mode belongs to low frequency use pattern, the low frequency is used Pattern is operational mode of the probability selected at least two operational mode less than predetermined probability；

Determining module, if being additionally configured to the i+1 kind operational mode belongs to the low frequency use pattern, according to described pre- If order redefines the i+1 kind operational mode, perform whether the detection i+1 kind operational mode belongs to low frequency again Use pattern；

Handover module, if being configured to the i+1 kind operational mode belongs to high frequency use pattern, according to the pattern switching Operation switches to the i+1 kind operational mode, and the high frequency use pattern is selected at least two operational mode Probability reach the operational mode of the predetermined probability.

8. device according to claim 7, it is characterised in that the mode detection module includes：

Detection sub-module, is configured to detect and whether include in the corresponding operational order of the i+1 kind operational mode pre- calibration Know, the predetermined mark is generated when being and meeting default low frequency condition according to the history frequency of usage of the i+1 kind operational mode 's；

First determination sub-module, if being configured to the operational order includes the predetermined mark, it is determined that the i+1 kind Operational mode belongs to the low frequency use pattern；

Second determination sub-module, if being configured in the operational order not include the predetermined mark, it is determined that the i+1 Plant operational mode and belong to the high frequency use pattern.

9. device according to claim 8, it is characterised in that described device also includes：

First acquisition module, is configured to obtain total time that the i+1 kind operational mode is switched in the predetermined amount of time Number；

Whether number of times detection module, be configured to detect the total degree less than pre-determined number threshold value；

First add module, if being configured to the total degree less than the pre-determined number threshold value, in i+1 kind operation Add the predetermined mark in the corresponding operational order of pattern.

10. device according to claim 8, it is characterised in that described device also includes：

Second acquisition module, is configured to obtain the described of the i+1 kind operational mode is switched in the predetermined amount of time Total degree, and every time be in the i+1 kind operational mode when the operation duration；

Ratio detection module, is configured to detect the ratio that operation duration is shared in the total degree less than the number of times of scheduled duration Whether example reaches predetermined ratio threshold value；

Second add module, if it is shared in the total degree less than the number of times of the scheduled duration to be configured to operation duration Ratio reaches the predetermined ratio threshold value, then add described in the corresponding operational order of the i+1 kind operational mode Predetermined mark.

11. according to the arbitrary described device of claim 7 to 10, it is characterised in that described device also includes：

First receiver module, is configured to receive recovery operation；

Mode decision module, is configured to determine that the object run pattern that the recovery operation is indicated, the object run pattern It is the low frequency use pattern；

First mark module, is configured to be used the object run mode flag for the high frequency according to the recovery operation Pattern.

12. according to the arbitrary described device of claim 7 to 10, it is characterised in that described device also includes：

Second receiver module, is configured to receive replacement operation；

Second mark module, is configured to according to the replacement operation is by each at least two operational mode Low frequency use pattern is labeled as the high frequency use pattern.

13. a kind of operational mode switching devices, it is characterised in that described device includes：

Processor；

For storing the memorizer of the processor executable；

Wherein, the processor is configured to：

The mode switching operation that i-th kind of operational mode to being presently in is switched over is received, the mode switching operation is used for Instruction is switched successively or cyclic switching between at least two operational modes according to preset order, i-th kind of operation mould Formula is any one operational mode at least two operational mode；

Whether detection i+1 kind operational mode belongs to low frequency use pattern, and the low frequency use pattern is at least two fortune Operational mode of the selected probability less than predetermined probability in row mode；

If the i+1 kind operational mode belongs to the low frequency use pattern, redefine according to the preset order described I+1 kind operational mode, performs again whether the detection i+1 kind operational mode belongs to low frequency use pattern；

If the i+1 kind operational mode belongs to high frequency use pattern, according to the mode switching operation described i-th is switched to + a kind of operational mode, the high frequency use pattern is that probability selected at least two operational mode reaches described making a reservation for The operational mode of probability.