CN104199709A - Startup method and electronic equipment - Google Patents

Abstract

The invention discloses a startup method and electronic equipment. The startup method includes responding to a first trigger event and starting up the electronic equipment in the shutdown state; reading environmental state identifications of the electronic equipment before complete startup; identifying the environmental state identifications and judging whether the environmental state identifications satisfy a first preset condition or not, setting a work mode of the electronic equipment after complete startup as a second work mode if the environmental state identifications satisfy the first preset condition, and if not, setting the work mode of the electronic equipment after complete startup as a first work mode. By the startup method and the electronic equipment, the current environment of the electronic equipment can be automatically analyzed, and after startup, the electronic equipment can be switched to the corresponding work modes.

Description

A kind of starting-up method and electronic equipment

Technical field

The present invention relates to the communications field, particularly relate to a kind of starting-up method and electronic equipment.

Background technology

Along with popularizing of mobile terminal, the application of mobile terminal has also been penetrated into the various occasions in daily life.

For example, when user is during in airplane, conventionally also carry the mobile terminals such as mobile phone.But in this application scenario, for the consideration of flight safety, the mobile terminals such as mobile phone are the communication patterns that is not allowed to be operated in common state.Now, conventionally only allow the mobile terminals such as mobile phone to be operated in offline mode.Certainly, user also can be by mobile terminal shutdown such as mobile phones.

But in prior art, if the mobile terminals such as mobile phone had been set up alarm clock before shutdown, even mobile phone shutdown, in the time that moment corresponding to alarm clock arrives, the mobile terminals such as mobile phone still can Auto Power On, and can be in normal mode of operation after start.This can bring great danger to flight.

Summary of the invention

The object of this invention is to provide a kind of starting-up method and electronic equipment, can the current residing environment of automatic analysis electronic equipment, thus after start, switch to corresponding mode of operation, avoid due to the incorrect danger that environment of living in is brought of mode of operation using.

For achieving the above object, the invention provides following scheme:

A kind of starting-up method, described method is applied to the electronic equipment with emission of radio frequency signals module, described electronic equipment at least has the first mode of operation and the second mode of operation, in described the first mode of operation, described emission of radio frequency signals module is in initiate mode, in described the second mode of operation, described emission of radio frequency signals module is in dead status, and described method comprises:

Respond the first trigger event, start the described electronic equipment in off-mode;

Before starting completely, read the ambient condition mark of described electronic equipment; Described ambient condition was designated described electronic equipment before shutdown, detected the residing environmental information of described electronic equipment and generated;

Identify described ambient condition mark, judge whether described ambient condition mark meets first pre-conditioned, obtain the first judged result;

Meet first when pre-conditioned when described the first judged result represents described ambient condition mark, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation;

Do not meet first when pre-conditioned when described the first judged result represents described ambient condition mark, the mode of operation after described electronic equipment starts is completely set to described the first mode of operation.

Optionally, before described response the first trigger event, also comprise:

Before the described described electronic equipment shutdown in off-mode, detect the environmental information of described electronic equipment;

Judge that whether described environmental information meets second pre-conditioned, obtain the second judged result;

Meet second when pre-conditioned when described the second judged result represents described environmental information, generate first environment status indicator; Described first environment status indicator meets first pre-conditioned.

Optionally, described the first trigger event is alarm clock prompting, meets second when pre-conditioned when described the second judged result represents described environmental information, before described generation first environment status indicator, also comprises:

Obtain the prompt time of described alarm clock prompting and current real time;

Whether the difference that judges described prompt time and real time is less than Preset Time difference, obtains the 3rd judged result;

In the time that described the 3rd judged result represents that the difference of described prompt time and real time is less than Preset Time difference, generate described first environment status indicator.

Optionally, described to judge that whether described environmental information meets second pre-conditioned, specifically comprises:

Judge whether described environmental information represents that described electronic equipment is positioned at airport.

Optionally, also comprise:

In the time that described the 3rd judged result represents that the difference of described prompt time and real time is more than or equal to Preset Time difference, prompting user inputs the time of arrival of current flight;

Obtain the described time of arrival of user's input;

Judge that the prompt time of described alarm clock prompting, whether early than described time of arrival, obtains the 4th judged result;

The prompt time that represents described alarm clock prompting when described the 4th judged result during early than described time of arrival, generates described first environment status indicator.

Optionally, described in read the ambient condition mark of described electronic equipment before, also comprise:

Obtain the movement velocity of described electronic equipment;

Judge whether described movement velocity is greater than pre-set velocity, obtain the 5th judged result;

In the time that described the 5th judged result represents that described movement velocity is greater than pre-set velocity, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation;

In the time that described the 5th judged result represents that described movement velocity is not more than pre-set velocity, the mode of operation after described electronic equipment starts is completely set to described the first mode of operation.

Optionally, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation, specifically comprises:

Open the vibration prompting function of described electronic equipment;

Close the voice prompt function of described electronic equipment.

A kind of electronic equipment, described electronic equipment has emission of radio frequency signals module, described electronic equipment at least has the first mode of operation and the second mode of operation, in described the first mode of operation, described emission of radio frequency signals module is in initiate mode, in described the second mode of operation, described emission of radio frequency signals module is in dead status, and described electronic equipment comprises:

The first trigger event response unit, for responding the first trigger event, starts the described electronic equipment in off-mode;

Ambient condition mark reading unit, for before starting completely, reads the ambient condition mark of described electronic equipment; Described ambient condition was designated described electronic equipment before shutdown, detected the residing environmental information of described electronic equipment and generated;

Ambient condition mark recognition unit, for identifying described ambient condition mark, judges whether described ambient condition mark meets first pre-conditioned, obtains the first judged result;

The first setting unit, for representing that when described the first judged result described ambient condition mark meets first when pre-conditioned, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation;

The second setting unit, for representing that when described the first judged result described ambient condition mark does not meet first when pre-conditioned, the mode of operation after described electronic equipment starts is completely set to described the first mode of operation.

Optionally, also comprise:

Environmental information monitoring means, for before response the first trigger event, before the described described electronic equipment shutdown in off-mode, detects the environmental information of described electronic equipment;

The second judging unit, second pre-conditioned for judging that whether described environmental information meets, obtain the second judged result;

First environment status indicator generation unit, for representing that when described the second judged result described environmental information meets second when pre-conditioned, generates first environment status indicator; Described first environment status indicator meets first pre-conditioned.

Optionally, described the first trigger event is alarm clock prompting, also comprises:

Time acquisition unit, for representing that when described the second judged result described environmental information meets second when pre-conditioned, before described generation first environment status indicator, obtains the prompt time of described alarm clock prompting and current real time;

Whether the 3rd judging unit, be less than Preset Time difference for the difference that judges described prompt time and real time, obtains the 3rd judged result;

Described first environment status indicator generation unit, also, in the time that described the 3rd judged result represents that the difference of described prompt time and real time is less than Preset Time difference, generates described first environment status indicator.

Optionally, described the second judging unit, specifically comprises:

The second judgment sub-unit, for judging whether described environmental information represents that described electronic equipment is positioned at airport.

Optionally, also comprise:

Tip element, in the time that described the 3rd judged result represents that the difference of described prompt time and real time is more than or equal to Preset Time difference, prompting user inputs the time of arrival of current flight;

Time of arrival acquiring unit, for obtaining the described time of arrival of user input;

The 4th judging unit, whether early than described time of arrival, obtains the 4th judged result for the prompt time that judges described alarm clock prompting;

Described first environment status indicator generation unit, also during early than described time of arrival, generates described first environment status indicator for the prompt time that represents described alarm clock prompting when described the 4th judged result.

Optionally, also comprise:

Movement velocity acquiring unit, for before reading the ambient condition mark of described electronic equipment, obtains the movement velocity of described electronic equipment;

The 5th judging unit, for judging whether described movement velocity is greater than pre-set velocity, obtains the 5th judged result;

Described the first setting unit, also in the time that described the 5th judged result represents that described movement velocity is greater than pre-set velocity, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation;

Described the second setting unit, also in the time that described the 5th judged result represents that described movement velocity is not more than pre-set velocity, the mode of operation after described electronic equipment starts is completely set to described the first mode of operation.

Optionally, described the first setting unit, specifically comprises:

Subelement is opened in vibrations, for opening the vibration prompting function of described electronic equipment;

Audible closure subelement, for closing the voice prompt function of described electronic equipment.

According to specific embodiment provided by the invention, the invention discloses following technique effect:

Starting-up method of the present invention and electronic equipment, before starting completely, read the ambient condition mark of described electronic equipment by the electronic equipment in off-mode; Identify described ambient condition mark, judge whether described ambient condition mark meets first pre-conditioned; When described ambient condition mark meets first when pre-conditioned, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation; In described the second mode of operation, described emission of radio frequency signals module is in dead status; Can the current residing environment of automatic analysis electronic equipment, thereby after start, switch to corresponding mode of operation, for example, not allowing to enable in the environment of emission of radio frequency signals module, after start, switch to the mode of operation of emission of radio frequency signals module of stopping using, thereby avoid due to the incorrect danger bringing in this environment of mode of operation using.

Brief description of the drawings

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, to the accompanying drawing of required use in embodiment be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the process flow diagram of starting-up method embodiment 1 of the present invention;

Fig. 2 is the process flow diagram of starting-up method embodiment 2 of the present invention;

Fig. 3 is the process flow diagram of starting-up method embodiment 3 of the present invention;

Fig. 4 is the process flow diagram of starting-up method embodiment 4 of the present invention;

Fig. 5 is the process flow diagram of starting-up method embodiment 5 of the present invention;

Fig. 6 is the process flow diagram of starting-up method embodiment 6 of the present invention;

Fig. 7 is the structural drawing of electronic equipment embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtaining under creative work prerequisite, belong to the scope of protection of the invention.

For above-mentioned purpose of the present invention, feature and advantage can be become apparent more, below in conjunction with the drawings and specific embodiments, the present invention is further detailed explanation.

First it should be noted that, starting-up method of the present invention, be applied to the electronic equipment with emission of radio frequency signals module, described electronic equipment at least has the first mode of operation and the second mode of operation, in described the first mode of operation, described emission of radio frequency signals module is in initiate mode, and in described the second mode of operation, described emission of radio frequency signals module is in dead status.

Concrete, described emission of radio frequency signals module, can be the module of any function with wireless signal emission.For example, can be the baseband chip for communicating by letter on mobile phone, or wifi signal transmitting and receiving unit, or for the GPS module of GPS (Global Positioning System, GPS) communication.Described electronic equipment can be mobile phone, notebook computer, panel computer etc.Described the first mode of operation can be normal talking pattern or the standby mode of the equipment such as mobile phone.Under described the first mode of operation, described emission of radio frequency signals module is in initiate mode, and therefore, under described the first mode of operation, described electronic equipment can carry out radio communication with the external world.Described the second mode of operation can be the offline mode of the equipment such as mobile phone.Under described the second mode of operation, described emission of radio frequency signals module is in dead status, and therefore, under described the second mode of operation, described electronic equipment cannot carry out radio communication with the external world.Described electronic equipment under the second mode of operation, even if start also can not bring danger to flight course.

Fig. 1 is the process flow diagram of starting-up method embodiment 1 of the present invention.As shown in Figure 1, the method can comprise:

Step 101: response the first trigger event, starts the described electronic equipment in off-mode;

Described the first trigger event, refers in the time that predetermined instant arrives, can be by the time starting in the described electronic equipment of off-mode.Concrete, described the first triggered time can be alarm clock prompting.After starting completely, described electronic equipment is converted to open state by off-mode.

It should be noted that the operation steps in the present embodiment was all carried out before described electronic equipment starts completely.

Step 102: before starting completely, read the ambient condition mark of described electronic equipment; Described ambient condition was designated described electronic equipment before shutdown, detected the residing environmental information of described electronic equipment and generated;

In the embodiment of the present invention, adopt ambient condition to identify the current residing environment of electronic equipment, or current may mark by residing environment.

Described electronic equipment, before shutdown, can detect current residing environment, can also predict the residing environment of described electronic equipment in a period of time in future.If current residing environment, or the residing environment of described electronic equipment in a period of time in the future, do not allow to enable described emission of radio frequency signals module, can generate first environment status indicator; If current residing environment, or the residing environment of described electronic equipment in a period of time in the future, allow to enable described emission of radio frequency signals module, can generate second environment status indicator.For example, described first environment status indicator can use " true " to represent, described second environment status indicator can represent with " false ".

Do not allow to enable the environment of described emission of radio frequency signals module, can comprise: the regions such as examination hall, airport, hospital.Can be by described electronic equipment be positioned, judge that whether described electronic equipment is in above-mentioned zone; Also can be in the time entering above-mentioned zone, the id signal that obtains the entrance guard device transmitting in above-mentioned zone judges that whether described electronic equipment is in above-mentioned zone.

Step 103: identify described ambient condition mark, judge whether described ambient condition mark meets first pre-conditioned, obtain the first judged result;

Described first pre-conditioned, can refer to that described ambient condition is designated described first environment status indicator.For example, in the time that described first environment status indicator represents with " true ", described first pre-conditioned can be just that described ambient condition is designated true.In the time that described first environment status indicator represents with " 1 ", described first pre-conditioned can be just that described ambient condition is designated 1.

Step 104: meet first when pre-conditioned when described the first judged result represents described ambient condition mark, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation;

When described ambient condition mark meets first when pre-conditioned, represent the current residing environment of described electronic equipment, do not allow to enable described emission of radio frequency signals module.Now, mode of operation that can described electronic equipment is set to the second mode of operation, thereby stops using described emission of radio frequency signals module.

Step 105: do not meet first when pre-conditioned when described the first judged result represents described ambient condition mark, the mode of operation after described electronic equipment starts is completely set to described the first mode of operation.

When described ambient condition mark does not meet first when pre-conditioned, represent the current residing environment of described electronic equipment, allow to enable described emission of radio frequency signals module.Now, mode of operation that can described electronic equipment is set to the first mode of operation, thereby enables described emission of radio frequency signals module.

In sum, in the present embodiment, before starting completely by the electronic equipment in off-mode, read the ambient condition mark of described electronic equipment; Identify described ambient condition mark, judge whether described ambient condition mark meets first pre-conditioned; When described ambient condition mark meets first when pre-conditioned, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation; In described the second mode of operation, described emission of radio frequency signals module is in dead status; Can the current residing environment of automatic analysis electronic equipment, thereby after start, switch to corresponding mode of operation, for example, not allowing to enable in the environment of emission of radio frequency signals module, after start, switch to the mode of operation of emission of radio frequency signals module of stopping using, thereby avoid due to the incorrect danger bringing in this environment of mode of operation using.

It should be noted that the embodiment in the present invention, before response the first trigger event, can also comprise the following steps:

Before the described described electronic equipment shutdown in off-mode, detect the environmental information of described electronic equipment; Judge that whether described environmental information meets second pre-conditioned, obtain the second judged result; Meet second when pre-conditioned when described the second judged result represents described environmental information, generate first environment status indicator; Described first environment status indicator meets first pre-conditioned.

Wherein, detect the environment of described electronic equipment, specifically can obtain the current positional information of electronic equipment, determine the current residing position of described electronic equipment by described positional information, again by the residing environment of electronic equipment described in the current residing location positioning of described electronic equipment, thereby obtain described environmental information.Described second pre-conditioned can be described electronic equipment in airport, the environment such as examination hall or hospital.

Also it should be noted that, in each embodiment of the present invention, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation, specifically can comprise:

Open the vibration prompting function of described electronic equipment;

Close the voice prompt function of described electronic equipment.

This be because, not allowing to enable in the environment of emission of radio frequency signals module, conventionally require to keep quite, therefore, can be set to silent mode by described electronic equipment, and open vibrating mode.

Fig. 2 is the process flow diagram of starting-up method embodiment 2 of the present invention.As shown in Figure 2, the method can comprise:

Step 201: before the described described electronic equipment shutdown in off-mode, detect the environmental information of described electronic equipment;

For example, can position described electronic equipment by wifi signal or GPS, according to the residing position of described electronic equipment, determine the environmental information of described electronic equipment.For example, in the time that the coordinate of described electronic equipment is positioned at the coordinate range on airport, can determine that described electronic equipment is positioned at airport.

Step 202: judge that whether described environmental information meets second pre-conditioned, obtain the second judged result;

For example, described second pre-conditioned can for the residing environment of described electronic equipment be airport., when in step 201, detect that described electronic equipment is positioned at behind airport, can judge that described environmental information meets second pre-conditioned, obtain the second sure judged result.

Step 203: meet second when pre-conditioned when described the second judged result represents described environmental information, obtain the prompt time of described alarm clock prompting and current real time;

In the present embodiment, described the first trigger event is alarm clock prompting.

Step 204: whether the difference that judges described prompt time and real time is less than Preset Time difference, obtains the 3rd judged result;

Described Preset Time difference can be set according to the actual requirements.In the present embodiment, the setting principle of described Preset Time difference is, if described electronic equipment, in a certain specific environment, will not be allowed to enable emission of radio frequency signals module within a period of time, so, can be set to described Preset Time difference described a period of time.For example, when described electronic equipment is positioned at airport, ordinary representation carries the user of this electronic equipment by airplane, and in a common flight passenger from arriving departure airfield until the time of flying to target machine place cost more than two hours.Now, just can described Preset Time difference be set to 2 hours.

Step 205: in the time that described the 3rd judged result represents that the difference of described prompt time and real time is less than Preset Time difference, generate described first environment status indicator.Generate first environment status indicator; Described first environment status indicator meets first pre-conditioned.

In the time that described the 3rd judged result represents that the difference of described prompt time and real time is less than Preset Time difference, when being illustrated in prompt time and arriving, still there is a strong possibility is arranged in the environment that is not allowed to enable emission of radio frequency signals module for described electronic equipment.Therefore, now can generate described first environment status indicator.

Step 206: response the first trigger event, starts the described electronic equipment in off-mode;

Step 207: before starting completely, read the ambient condition mark of described electronic equipment; Described ambient condition was designated described electronic equipment before shutdown, detected the residing environmental information of described electronic equipment and generated;

Step 208: identify described ambient condition mark, judge whether described ambient condition mark meets first pre-conditioned, obtain the first judged result;

Step 209: meet first when pre-conditioned when described the first judged result represents described ambient condition mark, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation;

Step 210: do not meet first when pre-conditioned when described the first judged result represents described ambient condition mark, the mode of operation after described electronic equipment starts is completely set to described the first mode of operation.

In the present embodiment, by representing that when described the second judged result described environmental information meets second when pre-conditioned, before described generation first environment status indicator, obtains the prompt time of described alarm clock prompting and current real time; Whether the difference that judges described prompt time and real time is less than Preset Time difference, obtains the 3rd judged result; In the time that described the 3rd judged result represents that the difference of described prompt time and real time is less than Preset Time difference, generate described first environment status indicator; Can be according to the residing environment of electronic equipment, and the difference of alarm clock prompting time and real time, while estimating alarm clock prompting described in the residing environment of electronic equipment, according to the automatic build environment status indicator of estimation results, improve the degree of intelligence of this method.

Fig. 3 is the process flow diagram of starting-up method embodiment 3 of the present invention.As shown in Figure 3, the method can comprise:

Step 301: before the described described electronic equipment shutdown in off-mode, detect the environmental information of described electronic equipment;

Step 302: judge whether described environmental information represents that described electronic equipment is positioned at airport, obtains the second judged result;

Step 303: in the time that described the second judged result represents that described electronic equipment is positioned at airport, obtain the prompt time of described alarm clock prompting and current real time;

Step 304: whether the difference that judges described prompt time and real time is less than Preset Time difference, obtains the 3rd judged result;

Step 305: in the time that described the 3rd judged result represents that the difference of described prompt time and real time is more than or equal to Preset Time difference, prompting user inputs the time of arrival of current flight;

Suppose that prompt time is points in afternoons 5, afternoon 1 real time point, Preset Time difference is 2 hours, the difference of described prompt time and real time is greater than Preset Time difference.Now, in the time that the alarm clock prompting time arrives, whether described electronic equipment is positioned on aircraft, needs judge the time of arrival of the current flight of taking according to the user who carries this electronic equipment.

Step 306: the described time of arrival of obtaining user's input;

User can directly input described time of arrival on described electronic equipment.

Step 307: judge that the prompt time of described alarm clock prompting, whether early than described time of arrival, obtains the 4th judged result;

Suppose that be 5 thirty of afternoon described time of arrival, the prompt time of described alarm clock prompting is early than described time of arrival.This means that described electronic equipment is also arranged on the aircraft travelling in the time that the time of alarm clock prompting arrives.Now, can generate first environment status indicator.

Step 308: the prompt time that represents described alarm clock prompting when described the 4th judged result during early than described time of arrival, generates described first environment status indicator.

Step 309: response alarm clock prompting, starts the described electronic equipment in off-mode;

Step 310: before starting completely, read the ambient condition mark of described electronic equipment;

Step 311: identify described ambient condition mark, judge whether described ambient condition mark is first environment status indicator, obtains the first judged result;

Step 312: in the time that described the first judged result represents that described ambient condition is designated first environment status indicator, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation.

In the present embodiment, in the time that the difference of described prompt time and real time is more than or equal to Preset Time difference, obtain the time of arrival of the current flight of user's input, when the prompt time of described alarm clock prompting is during early than described time of arrival, also can generate described first environment status indicator, residing mode of operation can control more accurately described electronic equipment start time.

Fig. 4 is the process flow diagram of starting-up method embodiment 4 of the present invention.As shown in Figure 4, the method can comprise:

Step 401: response the first trigger event, starts the described electronic equipment in off-mode;

Step 402: before starting completely, obtain the movement velocity of described electronic equipment;

Can obtain the acceleration of electronic equipment, according to the movement velocity of electronic equipment described in described acceleration calculation.Specifically can adopt gyroscope to obtain the acceleration of electronic equipment.

Step 403: judge whether described movement velocity is greater than pre-set velocity, obtain the 5th judged result;

Described pre-set velocity can be set according to the actual requirements.For example, described pre-set velocity can be 100 kilometers per hour, or can be 200 kilometers per hour.

Step 404: in the time that described the 5th judged result represents that described movement velocity is greater than pre-set velocity, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation;

In the time that described the 5th judged result represents that described movement velocity is greater than pre-set velocity, represent that the movement velocity of described electronic equipment is higher, there is greater probability to be positioned on aircraft.Now, be set to stop using described second mode of operation of described emission of radio frequency signals module of the mode of operation after can described electronic equipment starting completely.

Step 405: in the time that described the 5th judged result represents that described movement velocity is not more than pre-set velocity, the mode of operation after described electronic equipment starts is completely set to described the first mode of operation.

In the time that described the 5th judged result represents that described movement velocity is not more than pre-set velocity, represent that the movement velocity of described electronic equipment is lower, there is greater probability not to be positioned on aircraft.Now, the mode of operation after can described electronic equipment starting is completely set to enable described first mode of operation of described emission of radio frequency signals module.

In the present embodiment, by obtaining the movement velocity of electronic equipment, whether the movement velocity that judges electronic equipment is greater than pre-set velocity, in the time that the movement velocity of described electronic equipment is greater than pre-set velocity, mode of operation after described electronic equipment starts is completely set to described the second mode of operation, otherwise, be set to the first mode of operation; Can, according to the movement velocity of electronic equipment, automatically realize the adjusting for the mode of operation of described electronic equipment.

Fig. 5 is the process flow diagram of starting-up method embodiment 5 of the present invention.As shown in Figure 5, the method can comprise:

Step 501: before the described described electronic equipment shutdown in off-mode, obtain the interactive information of the gate control system in described electronic equipment and environment of living in;

In the time holding the user of described electronic equipment and enter examination hall, can use the gate control system in described electronic equipment and current environment of living in to carry out the operation of swiping the card.In the process of swiping the card, described gate control system can be sent to described electronic equipment by current environment information by interactive information.

Step 502: judge whether described interactive information represents that described electronic equipment is positioned at examination hall, obtains the second judged result;

Step 503: when described the second judged result is when being, generate first environment status indicator; Described first environment status indicator is true.

Step 504: response alarm clock prompting, starts the described electronic equipment in off-mode;

Step 505: before starting completely, read the ambient condition mark of described electronic equipment;

Step 506: judge whether described ambient condition mark is true, obtains the first judged result;

Step 507: the mode of operation after described the first judged result is when being, and described electronic equipment starts is completely set to offline mode; Open the vibration prompting function of described electronic equipment; Close the voice prompt function of described electronic equipment.

In the present embodiment, in the time identifying described electronic equipment and be arranged in examination hall, mode of operation that can described electronic equipment be set to the to stop using offline mode of emission of radio frequency signals module, can prevent that user from utilizing electronic equipment cheating, and the vibrating mode of unlocking electronic equipment, and be adjusted to silent mode, can prevent the interference of alarm clock to other users.

Fig. 6 is the process flow diagram of starting-up method embodiment 6 of the present invention.As shown in Figure 6, the method can comprise:

Step 601: before the described described electronic equipment shutdown in off-mode, obtain the positional information of described electronic equipment;

Can pass through gps signal, determine the positional information of described electronic equipment.

Step 602: judge whether described positional information represents that described electronic equipment is positioned at hospital, obtains the second judged result;

In the time that the position that described positional information represents is positioned at the coordinate range of hospital, can obtain sure described the second judged result.

Step 603: when described the second judged result is when being, generate first environment status indicator; Described first environment status indicator is true.

Step 604: response alarm clock prompting, starts the described electronic equipment in off-mode;

Step 605: before starting completely, read the ambient condition mark of described electronic equipment;

Step 606: judge whether described ambient condition mark is true, obtains the first judged result;

Step 607: the mode of operation after described the first judged result is when being, and described electronic equipment starts is completely set to offline mode; Open the vibration prompting function of described electronic equipment; Close the voice prompt function of described electronic equipment.

In the present embodiment, in the time identifying described electronic equipment and be arranged in hospital, mode of operation that can described electronic equipment be set to the to stop using offline mode of emission of radio frequency signals module, the signal that can prevent electronic equipment transmitting causes interference to the equipment in hospital, and the vibrating mode of unlocking electronic equipment, and be adjusted to silent mode, can prevent the interference of alarm clock to the patient in hospital.

The invention also discloses a kind of electronic equipment.Described electronic equipment has emission of radio frequency signals module, described electronic equipment at least has the first mode of operation and the second mode of operation, in described the first mode of operation, described emission of radio frequency signals module is in initiate mode, in described the second mode of operation, described emission of radio frequency signals module is in dead status.

Concrete, described emission of radio frequency signals module, can be the module of any function with wireless signal emission.For example, can be the baseband chip for communicating by letter on mobile phone, or wifi signal transmitting and receiving unit, or for the GPS module of GPS (Global Positioning System, GPS) communication.Described electronic equipment can be mobile phone, notebook computer, panel computer etc.Described the first mode of operation can be normal talking pattern or the standby mode of the equipment such as mobile phone.Under described the first mode of operation, described emission of radio frequency signals module is in initiate mode, and therefore, under described the first mode of operation, described electronic equipment can carry out radio communication with the external world.Described the second mode of operation can be the offline mode of the equipment such as mobile phone.Under described the second mode of operation, described emission of radio frequency signals module is in dead status, and therefore, under described the second mode of operation, described electronic equipment cannot carry out radio communication with the external world.Described electronic equipment under the second mode of operation, even if start also can not bring danger to flight course.

Fig. 7 is the structural drawing of electronic equipment embodiment of the present invention.As shown in Figure 7, described electronic equipment can comprise:

The first trigger event response unit 701, for responding the first trigger event, starts the described electronic equipment in off-mode;

Described the first trigger event, refers in the time that predetermined instant arrives, can be by the time starting in the described electronic equipment of off-mode.Concrete, described the first triggered time can be alarm clock prompting.After starting completely, described electronic equipment is converted to open state by off-mode.

Ambient condition mark reading unit 702, for before starting completely, reads the ambient condition mark of described electronic equipment; Described ambient condition was designated described electronic equipment before shutdown, detected the residing environmental information of described electronic equipment and generated;

In the embodiment of the present invention, adopt ambient condition to identify the current residing environment of electronic equipment, or current may mark by residing environment.

Described electronic equipment, before shutdown, can detect current residing environment, can also predict the residing environment of described electronic equipment in a period of time in future.If current residing environment, or the residing environment of described electronic equipment in a period of time in the future, do not allow to enable described emission of radio frequency signals module, can generate first environment status indicator; If current residing environment, or the residing environment of described electronic equipment in a period of time in the future, allow to enable described emission of radio frequency signals module, can generate second environment status indicator.For example, described first environment status indicator can use " true " to represent, described second environment status indicator can represent with " false ".

Do not allow to enable the environment of described emission of radio frequency signals module, can comprise: the regions such as examination hall, airport, hospital.Can be by described electronic equipment be positioned, judge that whether described electronic equipment is in above-mentioned zone; Also can be in the time entering above-mentioned zone, the id signal that obtains the entrance guard device transmitting in above-mentioned zone judges that whether described electronic equipment is in above-mentioned zone.

Ambient condition mark recognition unit 703, for identifying described ambient condition mark, judges whether described ambient condition mark meets first pre-conditioned, obtains the first judged result;

Described first pre-conditioned, can refer to that described ambient condition is designated described first environment status indicator.For example, in the time that described first environment status indicator represents with " true ", described first pre-conditioned can be just that described ambient condition is designated true.In the time that described first environment status indicator represents with " 1 ", described first pre-conditioned can be just that described ambient condition is designated 1.

The first setting unit 704, for representing that when described the first judged result described ambient condition mark meets first when pre-conditioned, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation;

When described ambient condition mark meets first when pre-conditioned, represent the current residing environment of described electronic equipment, do not allow to enable described emission of radio frequency signals module.Now, mode of operation that can described electronic equipment is set to the second mode of operation, thereby stops using described emission of radio frequency signals module.

The second setting unit 705, for representing that when described the first judged result described ambient condition mark does not meet first when pre-conditioned, the mode of operation after described electronic equipment starts is completely set to described the first mode of operation.

When described ambient condition mark does not meet first when pre-conditioned, represent the current residing environment of described electronic equipment, allow to enable described emission of radio frequency signals module.Now, mode of operation that can described electronic equipment is set to the first mode of operation, thereby enables described emission of radio frequency signals module.

In sum, in the present embodiment, before starting completely by the electronic equipment in off-mode, read the ambient condition mark of described electronic equipment; Identify described ambient condition mark, judge whether described ambient condition mark meets first pre-conditioned; When described ambient condition mark meets first when pre-conditioned, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation; In described the second mode of operation, described emission of radio frequency signals module is in dead status; Can the current residing environment of automatic analysis electronic equipment, thereby not allowing to enable in the environment of emission of radio frequency signals module, after start, switch to the mode of operation of emission of radio frequency signals module of stopping using, thereby avoid due to the incorrect danger bringing in this environment of mode of operation using.

In practical application, can also comprise:

Environmental information monitoring means, for before response the first trigger event, before the described described electronic equipment shutdown in off-mode, detects the environmental information of described electronic equipment;

The second judging unit, second pre-conditioned for judging that whether described environmental information meets, obtain the second judged result;

First environment status indicator generation unit, for representing that when described the second judged result described environmental information meets second when pre-conditioned, generates first environment status indicator; Described first environment status indicator meets first pre-conditioned.

In practical application, described the first trigger event is alarm clock prompting, can also comprise:

Time acquisition unit, for representing that when described the second judged result described environmental information meets second when pre-conditioned, before described generation first environment status indicator, obtains the prompt time of described alarm clock prompting and current real time;

Whether the 3rd judging unit, be less than Preset Time difference for the difference that judges described prompt time and real time, obtains the 3rd judged result;

Described first environment status indicator generation unit, also, in the time that described the 3rd judged result represents that the difference of described prompt time and real time is less than Preset Time difference, generates described first environment status indicator.

In practical application, described the second judging unit, specifically comprises:

The second judgment sub-unit, for judging whether described environmental information represents that described electronic equipment is positioned at airport.

In practical application, also comprise:

Tip element, in the time that described the 3rd judged result represents that the difference of described prompt time and real time is more than or equal to Preset Time difference, prompting user inputs the time of arrival of current flight;

Time of arrival acquiring unit, for obtaining the described time of arrival of user input;

The 4th judging unit, whether early than described time of arrival, obtains the 4th judged result for the prompt time that judges described alarm clock prompting;

Described first environment status indicator generation unit, also during early than described time of arrival, generates described first environment status indicator for the prompt time that represents described alarm clock prompting when described the 4th judged result.

In practical application, also comprise:

Movement velocity acquiring unit, for before reading the ambient condition mark of described electronic equipment, obtains the movement velocity of described electronic equipment;

The 5th judging unit, for judging whether described movement velocity is greater than pre-set velocity, obtains the 5th judged result;

Described the first setting unit, also in the time that described the 5th judged result represents that described movement velocity is greater than pre-set velocity, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation;

Described the second setting unit, also in the time that described the 5th judged result represents that described movement velocity is not more than pre-set velocity, the mode of operation after described electronic equipment starts is completely set to described the first mode of operation.

In practical application, described the first setting unit 704, specifically comprises:

Subelement is opened in vibrations, for opening the vibration prompting function of described electronic equipment;

Audible closure subelement, for closing the voice prompt function of described electronic equipment.

Finally, also it should be noted that, in this article, relational terms such as the first and second grades is only used for an entity or operation to separate with another entity or operational zone, and not necessarily requires or imply and between these entities or operation, have the relation of any this reality or sequentially.And, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thereby the process, method, article or the equipment that make to comprise a series of key elements not only comprise those key elements, but also comprise other key elements of clearly not listing, or be also included as the intrinsic key element of this process, method, article or equipment.The in the situation that of more restrictions not, the key element being limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment that comprises described key element and also have other identical element.

Through the above description of the embodiments, those skilled in the art can be well understood to the mode that the present invention can add essential hardware platform by software and realize, can certainly all implement by hardware, but in a lot of situation, the former is better embodiment.Based on such understanding, what technical scheme of the present invention contributed to background technology can embody with the form of software product in whole or in part, this computer software product can be stored in storage medium, as ROM/RAM, magnetic disc, CD etc., comprise that some instructions (can be personal computers in order to make a computer equipment, server, or the network equipment etc.) carry out the method described in some part of each embodiment of the present invention or embodiment.

In this instructions, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is and the difference of other embodiment, between each embodiment identical similar part mutually referring to.For the disclosed electronic equipment of embodiment, because it corresponds to the method disclosed in Example, so description is fairly simple, relevant part illustrates referring to method part.

Applied specific case herein principle of the present invention and embodiment are set forth, the explanation of above embodiment is just for helping to understand method of the present invention and core concept thereof; Meanwhile, for one of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications.In sum, this description should not be construed as limitation of the present invention.

Claims (14)

1. a starting-up method, it is characterized in that, described method is applied to the electronic equipment with emission of radio frequency signals module, described electronic equipment at least has the first mode of operation and the second mode of operation, in described the first mode of operation, described emission of radio frequency signals module is in initiate mode, in described the second mode of operation, described emission of radio frequency signals module is in dead status, and described method comprises:

Respond the first trigger event, start the described electronic equipment in off-mode;

Before starting completely, read the ambient condition mark of described electronic equipment; Described ambient condition was designated described electronic equipment before shutdown, detected the residing environmental information of described electronic equipment and generated;

Identify described ambient condition mark, judge whether described ambient condition mark meets first pre-conditioned, obtain the first judged result;

Meet first when pre-conditioned when described the first judged result represents described ambient condition mark, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation;

Do not meet first when pre-conditioned when described the first judged result represents described ambient condition mark, the mode of operation after described electronic equipment starts is completely set to described the first mode of operation.

2. method according to claim 1, is characterized in that, before described response the first trigger event, also comprises:

Before the described described electronic equipment shutdown in off-mode, detect the environmental information of described electronic equipment;

Judge that whether described environmental information meets second pre-conditioned, obtain the second judged result;

Meet second when pre-conditioned when described the second judged result represents described environmental information, generate first environment status indicator; Described first environment status indicator meets first pre-conditioned.

3. method according to claim 2, is characterized in that, described the first trigger event is alarm clock prompting, meets second when pre-conditioned when described the second judged result represents described environmental information, before described generation first environment status indicator, also comprises:

Obtain the prompt time of described alarm clock prompting and current real time;

Whether the difference that judges described prompt time and real time is less than Preset Time difference, obtains the 3rd judged result;

In the time that described the 3rd judged result represents that the difference of described prompt time and real time is less than Preset Time difference, generate described first environment status indicator.

4. method according to claim 3, is characterized in that, described to judge that whether described environmental information meets second pre-conditioned, specifically comprises:

Judge whether described environmental information represents that described electronic equipment is positioned at airport.

5. method according to claim 4, is characterized in that, also comprises:

In the time that described the 3rd judged result represents that the difference of described prompt time and real time is more than or equal to Preset Time difference, prompting user inputs the time of arrival of current flight;

Obtain the described time of arrival of user's input;

Judge that the prompt time of described alarm clock prompting, whether early than described time of arrival, obtains the 4th judged result;

The prompt time that represents described alarm clock prompting when described the 4th judged result during early than described time of arrival, generates described first environment status indicator.

6. method according to claim 1, is characterized in that, described in read the ambient condition mark of described electronic equipment before, also comprise:

Obtain the movement velocity of described electronic equipment;

Judge whether described movement velocity is greater than pre-set velocity, obtain the 5th judged result;

In the time that described the 5th judged result represents that described movement velocity is greater than pre-set velocity, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation;

In the time that described the 5th judged result represents that described movement velocity is not more than pre-set velocity, the mode of operation after described electronic equipment starts is completely set to described the first mode of operation.

7. according to the method described in claim 1 to 6 any one, it is characterized in that, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation, specifically comprises:

Open the vibration prompting function of described electronic equipment;

Close the voice prompt function of described electronic equipment.

8. an electronic equipment, it is characterized in that, described electronic equipment has emission of radio frequency signals module, described electronic equipment at least has the first mode of operation and the second mode of operation, in described the first mode of operation, described emission of radio frequency signals module is in initiate mode, in described the second mode of operation, described emission of radio frequency signals module is in dead status, and described electronic equipment comprises:

The first trigger event response unit, for responding the first trigger event, starts the described electronic equipment in off-mode;

Ambient condition mark reading unit, for before starting completely, reads the ambient condition mark of described electronic equipment; Described ambient condition was designated described electronic equipment before shutdown, detected the residing environmental information of described electronic equipment and generated;

Ambient condition mark recognition unit, for identifying described ambient condition mark, judges whether described ambient condition mark meets first pre-conditioned, obtains the first judged result;

The first setting unit, for representing that when described the first judged result described ambient condition mark meets first when pre-conditioned, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation;

The second setting unit, for representing that when described the first judged result described ambient condition mark does not meet first when pre-conditioned, the mode of operation after described electronic equipment starts is completely set to described the first mode of operation.

9. electronic equipment according to claim 8, is characterized in that, also comprises:

Environmental information monitoring means, for before response the first trigger event, before the described described electronic equipment shutdown in off-mode, detects the environmental information of described electronic equipment;

The second judging unit, second pre-conditioned for judging that whether described environmental information meets, obtain the second judged result;

First environment status indicator generation unit, for representing that when described the second judged result described environmental information meets second when pre-conditioned, generates first environment status indicator; Described first environment status indicator meets first pre-conditioned.

10. electronic equipment according to claim 9, is characterized in that, described the first trigger event is alarm clock prompting, also comprises:

Time acquisition unit, for representing that when described the second judged result described environmental information meets second when pre-conditioned, before described generation first environment status indicator, obtains the prompt time of described alarm clock prompting and current real time;

Whether the 3rd judging unit, be less than Preset Time difference for the difference that judges described prompt time and real time, obtains the 3rd judged result;

Described first environment status indicator generation unit, also, in the time that described the 3rd judged result represents that the difference of described prompt time and real time is less than Preset Time difference, generates described first environment status indicator.

11. electronic equipments according to claim 10, is characterized in that, described the second judging unit, specifically comprises:

The second judgment sub-unit, for judging whether described environmental information represents that described electronic equipment is positioned at airport.

12. electronic equipments according to claim 11, is characterized in that, also comprise:

Tip element, in the time that described the 3rd judged result represents that the difference of described prompt time and real time is more than or equal to Preset Time difference, prompting user inputs the time of arrival of current flight;

Time of arrival acquiring unit, for obtaining the described time of arrival of user input;

The 4th judging unit, whether early than described time of arrival, obtains the 4th judged result for the prompt time that judges described alarm clock prompting;

Described first environment status indicator generation unit, also during early than described time of arrival, generates described first environment status indicator for the prompt time that represents described alarm clock prompting when described the 4th judged result.

13. electronic equipments according to claim 8, is characterized in that, also comprise:

Movement velocity acquiring unit, for before reading the ambient condition mark of described electronic equipment, obtains the movement velocity of described electronic equipment;

The 5th judging unit, for judging whether described movement velocity is greater than pre-set velocity, obtains the 5th judged result;

Described the first setting unit, also in the time that described the 5th judged result represents that described movement velocity is greater than pre-set velocity, the mode of operation after described electronic equipment starts is completely set to described the second mode of operation;

Described the second setting unit, also in the time that described the 5th judged result represents that described movement velocity is not more than pre-set velocity, the mode of operation after described electronic equipment starts is completely set to described the first mode of operation.

Electronic equipment described in 14. according to Claim 8 to 13 any one, is characterized in that, described the first setting unit, specifically comprises:

Subelement is opened in vibrations, for opening the vibration prompting function of described electronic equipment;

Audible closure subelement, for closing the voice prompt function of described electronic equipment.