CN105204641A - Flight mode control method and device - Google Patents

Abstract

The embodiment of the invention discloses a flight mode control method and a flight mode control device, and solves the technical problem that flight mode control cannot be performed on wireless communication equipment installed in intelligent shoes due to the fact that the wireless communication equipment in the intelligent shoes cannot be taken out for flight mode control. The flight mode control method comprises a flight mode control device and intelligent shoes, wherein the flight mode control device is installed at the bottom in the intelligent shoes; the flight mode control method steps include S1: collecting the pressure value of the bottom of the intelligent shoe in real time; s2: judging whether the pressure value meets a first preset pressure interval value, if so, executing a step S3; s3: judging whether the real-time speed calculated according to the first preset mode reaches a takeoff speed threshold value, if so, executing a step S4; s4: starting a flight mode; the first preset pressure interval value corresponds to the pressure condition of the intelligent shoe when the user sits on the seat.

Description

A kind of offline mode control method and device

Technical field

The present invention relates to technical field of communication equipment, particularly relate to a kind of offline mode control method and device.

Background technology

Offline mode is again aviation pattern, must turn off wireless telecommunications system when airplane, in order to avoid the transmitting and receiving of mobile phone signal impact aircraft flight, have in some wireless telecommunications system and just carried this function, the signal receiving/transmission device of SIM card can be closed.

At present, for the offline mode of wireless telecommunications system unlatching or close all need manually to operate.

But, unlatching or the closedown of above-mentioned offline mode all need manually to operate, all cannot be suitable for when being applied to the wireless telecommunications system being arranged on intelligent shoe inside, its reason is that the wireless telecommunications system of intelligent shoe inside cannot fetch out the control carrying out offline mode.

Therefore, the above-mentioned wireless telecommunications system due to intelligent shoe inside mentioned cannot fetch out the control carrying out offline mode, the technical matters cannot carrying out the control of offline mode to the wireless telecommunications system being arranged on intelligent shoe inside caused, has become the technical matters that those skilled in the art are urgently to be resolved hurrily.

Summary of the invention

Embodiments provide a kind of offline mode control method and device, the wireless telecommunications system solved due to intelligent shoe inside cannot fetch out the control carrying out offline mode, and the technical matters cannot carrying out the control of offline mode to the wireless telecommunications system being arranged on intelligent shoe inside caused.

A kind of offline mode control method that the embodiment of the present invention provides, comprising:

S1: the force value bottom intelligent shoe described in Real-time Collection;

S2: judge whether described force value meets the first set pressure interval value, if so, then performs step S3;

S3: the judgement whether real-time speed calculated according to the first preset mode being reached to speed per hour threshold value of taking off, if so, then performs step S4;

S4: open offline mode;

When described first set pressure interval value is taken a seat with user, the pressure condition of described intelligent shoe is corresponding.

Preferably, described step S2 specifically comprises:

Judge whether described force value meets the first set pressure interval value, if so, then performs step S3, if not, then judge whether described force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then performs step S3.

Preferably, described step S2 specifically comprises:

Judge whether described force value meets the first set pressure interval value, the force value if so, then performing preset time period gathers determining step, if not, then judge whether described force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then performs step S3;

The force value of described preset time period gathers determining step and comprises:

Interval preset time period gathers again to the force value bottom described intelligent shoe, and judge whether the described force value after again gathering meets the first set pressure interval value, if, then perform step S3, if not, then judge whether the described force value after again gathering meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then performs step S3.

Preferably, step S3 specifically comprises:

The current location information obtained by GPS module and the front positional information once recorded are calculated according to preset mode, to obtain described real-time speed;

Judge whether described real-time speed reaches speed per hour threshold value of taking off, if so, then carry out sea level elevation collection, and judge whether described sea level elevation meets preset height value, if so, then perform step S4.

Preferably, described offline mode control method also comprises:

Judge whether to be in offline mode, if be in offline mode, then judge whether described real-time speed reaches speed per hour threshold value of taking off, if described real-time speed does not reach speed per hour threshold value of taking off, then carry out sea level elevation collection, and judge whether described sea level elevation meets preset height value, if do not meet preset height value, then close described offline mode.

A kind of offline mode control device that the embodiment of the present invention provides, comprising:

First collecting unit, for the force value bottom intelligent shoe described in Real-time Collection;

First judging unit, for judging whether described force value meets the first set pressure interval value, if so, then triggers the second judging unit;

Described second judging unit, for whether reaching the judgement of speed per hour threshold value of taking off to the real-time speed calculated according to the first preset mode, if so, then triggers the first performance element;

Described first performance element, for opening offline mode;

When described first set pressure interval value is taken a seat with user, the pressure condition of described intelligent shoe is corresponding.

Preferably, described first judging unit specifically comprises:

First judgment sub-unit, for judging whether described force value meets the first set pressure interval value, if so, then triggers described second judging unit, if not, then triggers the 3rd judging unit;

Described 3rd judging unit, for judging whether described force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then triggers described second judging unit;

Preferably, described first judging unit specifically comprises:

Second judgment sub-unit, for judging whether described force value meets the first set pressure interval value, if so, then triggers the 4th judging unit, if not, then triggers the 3rd judging unit;

Described 3rd judging unit, for judging whether described force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then triggers described second judging unit;

Described 4th judging unit, for interval preset time period, the force value bottom described intelligent shoe is gathered again, and judge whether the described force value after again gathering meets the first set pressure interval value, if, then trigger described second judging unit, if not, then judge whether the described force value after again gathering meets the second set pressure interval value corresponding with the overweight pressure that takes off, if so, described second judging unit is then triggered.

Preferably, the second judging unit specifically comprises:

Computation subunit, for calculating the current location information obtained by GPS module and the front positional information once recorded according to preset mode, to obtain described real-time speed;

3rd judgment sub-unit, for judging whether described real-time speed reaches speed per hour threshold value of taking off, if so, then carries out sea level elevation collection, and judges whether described sea level elevation meets preset height value, if so, then triggers described first performance element.

Preferably, described offline mode control device also comprises:

5th judging unit, is in offline mode for judging whether, if be in offline mode, then triggers the 6th judging unit;

Described 6th judging unit, for judging whether described real-time speed reaches speed per hour threshold value of taking off, if described real-time speed does not reach speed per hour threshold value of taking off, then triggers the 7th judging unit;

Described 7th judging unit, for carrying out sea level elevation collection, and judging whether described sea level elevation meets preset height value, if do not meet preset height value, then triggering the second performance element;

Described second performance element, for closing described offline mode.

As can be seen from the above technical solutions, the embodiment of the present invention has the following advantages:

A kind of offline mode control method provided in the embodiment of the present invention and device, wherein, offline mode control method comprises: S1: the force value bottom Real-time Collection intelligent shoe; S2: judge whether force value meets the first set pressure interval value, if so, then performs step S3; S3: the judgement whether real-time speed calculated according to the first preset mode being reached to speed per hour threshold value of taking off, if so, then performs step S4; S4: open offline mode; When first set pressure interval value is taken a seat with user, the pressure condition of intelligent shoe is corresponding.In the present embodiment, whether the first set pressure interval value is met by the force value gathered bottom intelligent shoe, and the first set pressure interval value when taking a seat with user the pressure condition of intelligent shoe corresponding, again whether the real-time speed detected is reached to the judgement of speed per hour threshold value of taking off, just the operation that intelligent shoe carries out offline mode unlatching is automatically achieved, the wireless telecommunications system solved due to intelligent shoe inside cannot fetch out the control carrying out offline mode, and the technical matters cannot carrying out the control of offline mode to the wireless telecommunications system being arranged on intelligent shoe inside caused.

And, judge whether force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and carry out the design of corresponding operation, achieve when aircraft is in just in take-off process, the judgement of the overweight pressure born bottom intelligent shoe, further increases the need of automatically opening the intelligent of offline mode.

Meanwhile, when judging that real-time speed does not reach speed per hour threshold value of taking off, and judging that sea level elevation does not meet preset height value, automatically carrying out the closedown of offline mode, greatly increasing user experience.

Accompanying drawing explanation

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

A kind of schematic flow sheet of an embodiment of offline mode control method of Fig. 1 for providing in the embodiment of the present invention;

A kind of schematic flow sheet of another embodiment of offline mode control method of Fig. 2 for providing in the embodiment of the present invention;

A kind of schematic flow sheet of another embodiment of offline mode control method of Fig. 3 for providing in the embodiment of the present invention

A kind of structural representation of an embodiment of offline mode control device of Fig. 4 for providing in the embodiment of the present invention;

A kind of structural representation of another embodiment of offline mode control device of Fig. 5 for providing in the embodiment of the present invention.

Embodiment

Embodiments provide a kind of offline mode control method and device, the wireless telecommunications system solved due to intelligent shoe inside cannot fetch out the control carrying out offline mode, and the technical matters cannot carrying out the control of offline mode to the wireless telecommunications system being arranged on intelligent shoe inside caused.

For making goal of the invention of the present invention, feature, advantage can be more obvious and understandable, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, the embodiments described below are only the present invention's part embodiments, and the embodiment of not all.Based on the embodiment in the present invention, those of ordinary skill in the art, not making other embodiments all obtained under creative work prerequisite, belong to the scope of protection of the invention.

Refer to Fig. 1, an embodiment of a kind of offline mode control method provided in the embodiment of the present invention comprises:

S1: the force value bottom Real-time Collection intelligent shoe;

In the present embodiment, when needing to determine whether to need to carry out the unlatching of offline mode to the wireless telecommunications system of user, the force value first bottom Real-time Collection intelligent shoe.

Aforesaid wireless telecommunications system can be mounted in the positioning chip inside intelligent shoe, is integrated with GSM, GPS module in this chip, does not specifically limit herein.

S2: judge whether force value meets the first set pressure interval value, if so, then performs step S3;

After force value bottom offline mode control device Real-time Collection intelligent shoe, need to judge whether force value meets the first set pressure interval value, if so, then performs step S3.

When first set pressure interval value is taken a seat with user, the pressure condition of intelligent shoe is corresponding, be understandable that, when user takes a seat, can be those skilled in the art be gathered by the average weight interval of the age level user corresponding to the footwear yardage of intelligent shoe the pressure of intelligent shoe, the intelligent shoe when user finally adding up acquisition takes a seat bears the interval value of pressure, three/mono-to the half etc. of such as user's weight, is just no longer described in detail herein.

S3: the judgement whether real-time speed calculated according to the first preset mode being reached to speed per hour threshold value of taking off, if so, then performs step S4;

When judging that force value is satisfied first set pressure interval value, then whether the real-time speed calculated according to the first preset mode being reached to the judgement of speed per hour threshold value of taking off, if so, then performing step S4.

S4: open offline mode.

When whether reaching being judged as YES of speed per hour threshold value of taking off to the real-time speed calculated according to the first preset mode, then open offline mode.

In the present embodiment, whether the first set pressure interval value is met by the force value gathered bottom intelligent shoe, and the first set pressure interval value when taking a seat with user the pressure condition of intelligent shoe corresponding, again whether the real-time speed detected is reached to the judgement of speed per hour threshold value of taking off, just the operation that intelligent shoe carries out offline mode unlatching is automatically achieved, the wireless telecommunications system solved due to intelligent shoe inside cannot fetch out the control carrying out offline mode, and the technical matters cannot carrying out the control of offline mode to the wireless telecommunications system being arranged on intelligent shoe inside caused.

The above is described in detail the process of offline mode control method, will be described in detail below, and refer to Fig. 2 to step S2 and S3, and another embodiment of a kind of offline mode control method provided in the embodiment of the present invention comprises:

201, the force value bottom Real-time Collection intelligent shoe;

In the present embodiment, when needing to determine whether to need to carry out the unlatching of offline mode to the wireless telecommunications system of user, the force value first bottom Real-time Collection intelligent shoe.

Aforesaid wireless telecommunications system can be mounted in the positioning chip inside intelligent shoe, is integrated with GSM, GPS module in this chip, does not specifically limit herein.

202, judge whether force value meets the first set pressure interval value, if so, then performs step 203, if not, then perform step 204;

After force value bottom Real-time Collection intelligent shoe, need to judge whether force value meets the first set pressure interval value, if so, then performs step 203, if not, then perform step 204.

When first set pressure interval value is taken a seat with user, the pressure condition of intelligent shoe is corresponding, be understandable that, when user takes a seat, can be those skilled in the art be gathered by the average weight interval of the age level user corresponding to the footwear yardage of intelligent shoe the pressure of intelligent shoe, the intelligent shoe when user finally adding up acquisition takes a seat bears the interval value of pressure, three/mono-to the half etc. of such as user's weight, is just no longer described in detail herein.

203, interval preset time period gathers again to the force value bottom intelligent shoe, and judges whether the force value after again gathering meets the first set pressure interval value, if so, then performs step 205, if not, then performs step 204;

When judging that force value meets the first set pressure interval value, then interval preset time period gathers again to the force value bottom intelligent shoe, and judges whether the force value after again gathering meets the first set pressure interval value, if, then perform step 205, if not, then perform step 204.

Aforesaid preset time period, can be the time pre-set, such as half a minute or two minutes, specifically not limit herein.

204, judge whether force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then performs step 205;

When judging that force value does not meet the first set pressure interval value, then judge whether force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then performs step 205.

When judging that the force value after again gathering does not meet the first set pressure interval value, then judge whether force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then performs step 205.

It should be noted that, aforesaid second set pressure interval value can be when in the process taken off, and the pressure for overweight state born at the bottom of intelligent shoe, can be the pressure range scope obtained by repetitive measurement, repeat no more herein.

205, the current location information obtained by GPS module and the front positional information once recorded are calculated according to preset mode, to obtain real-time speed;

Force value after the judgement of step 203 gathers again meets the first set pressure interval value, and the judgement force value of step 204 meets the second set pressure interval value corresponding with the overweight pressure that takes off and judges that force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, the current location information obtained by GPS module and the front positional information once recorded is needed to calculate according to preset mode, to obtain real-time speed.

It should be noted that, it can be obtain at set intervals that aforesaid positional information obtains, and such as 30 minutes, does not specifically limit herein.

Aforesaid preset mode is known to the skilled person technology, no longer specifically repeats herein.

206, judge whether real-time speed reaches speed per hour threshold value of taking off, if so, then perform step 207;

When the current location information obtained by GPS module and the front positional information once recorded are calculated according to preset mode, after obtaining real-time speed, need to judge whether real-time speed reaches speed per hour threshold value of taking off, if so, then perform step 207.

207, carry out sea level elevation collection, and judge whether sea level elevation meets preset height value, if so, then perform step 208;

When judging that real-time speed reaches speed per hour threshold value of taking off, then carry out sea level elevation collection, and judge whether sea level elevation meets preset height value, if so, then perform step 208.

208, offline mode is opened.

When judging whether sea level elevation meets preset height value for being, then open offline mode.

In the present embodiment, whether the first set pressure interval value is met by the force value gathered bottom intelligent shoe, and the first set pressure interval value when taking a seat with user the pressure condition of intelligent shoe corresponding, again whether the real-time speed detected is reached to the judgement of speed per hour threshold value of taking off, just the operation that intelligent shoe carries out offline mode unlatching is automatically achieved, the wireless telecommunications system solved due to intelligent shoe inside cannot fetch out the control carrying out offline mode, and the technical matters cannot carrying out the control of offline mode to the wireless telecommunications system being arranged on intelligent shoe inside caused, and, judge whether force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and carry out the design of corresponding operation, achieve when aircraft is in just in take-off process, the judgement of the overweight pressure born bottom intelligent shoe, further increase the need of automatically opening the intelligent of offline mode.

The above is described in detail the step S2 of Fig. 1 embodiment and S3, and be described in detail to the closedown of offline mode below, refer to Fig. 3, another embodiment of a kind of offline mode control method provided in the embodiment of the present invention comprises:

301, the force value bottom Real-time Collection intelligent shoe;

In the present embodiment, when needing to determine whether to need to carry out the unlatching of offline mode to the wireless telecommunications system of user, the force value first bottom Real-time Collection intelligent shoe.

Aforesaid wireless telecommunications system can be mounted in the positioning chip inside intelligent shoe, is integrated with GSM, GPS module in this chip, does not specifically limit herein.302, judge whether force value meets the first set pressure interval value, if so, then performs step 303, if not, then perform step 304;

After force value bottom Real-time Collection intelligent shoe, need to judge whether force value meets the first set pressure interval value, if so, then performs step 303, if not, then perform step 304.

When first set pressure interval value is taken a seat with user, the pressure condition of intelligent shoe is corresponding, be understandable that, when user takes a seat, can be those skilled in the art be gathered by the average weight interval of the age level user corresponding to the footwear yardage of intelligent shoe the pressure of intelligent shoe, the intelligent shoe when user finally adding up acquisition takes a seat bears the interval value of pressure, three/mono-to the half etc. of such as user's weight, is just no longer described in detail herein.

303, interval preset time period gathers again to the force value bottom intelligent shoe, and judges whether the force value after again gathering meets the first set pressure interval value, if so, then performs step 305, if not, then performs step 304;

When judging that force value meets the first set pressure interval value, then interval preset time period gathers again to the force value bottom intelligent shoe, and judges whether the force value after again gathering meets the first set pressure interval value, if, then perform step 305, if not, then perform step 304.

Aforesaid preset time period, can be the time pre-set, such as half a minute or two minutes, specifically not limit herein.

304, judge whether force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then performs step 305;

When judging that force value does not meet the first set pressure interval value, then judge whether force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then performs step 305.

When judging that the force value after again gathering does not meet the first set pressure interval value, then judge whether force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then performs step 305.

It should be noted that, aforesaid second set pressure interval value can be when in the process taken off, and the pressure for overweight state born at the bottom of intelligent shoe, can be the pressure range scope obtained by repetitive measurement, repeat no more herein.

305, the current location information obtained by GPS module and the front positional information once recorded are calculated according to preset mode, to obtain real-time speed;

Force value after the judgement of step 303 gathers again meets the first set pressure interval value, and the judgement force value of step 304 meets the second set pressure interval value corresponding with the overweight pressure that takes off and judges that force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, the current location information obtained by GPS module and the front positional information once recorded is needed to calculate according to preset mode, to obtain real-time speed.

It should be noted that, it can be obtain at set intervals that aforesaid positional information obtains, and such as 30 minutes, does not specifically limit herein.

Aforesaid preset mode is known to the skilled person technology, no longer specifically repeats herein.

306, judge whether real-time speed reaches speed per hour threshold value of taking off, if so, then perform step 307;

When the current location information obtained by GPS module and the front positional information once recorded are calculated according to preset mode, after obtaining real-time speed, need to judge whether real-time speed reaches speed per hour threshold value of taking off, if so, then perform step 307.

307, carry out sea level elevation collection, and judge whether sea level elevation meets preset height value, if so, then perform step 308;

When judging that real-time speed reaches speed per hour threshold value of taking off, then carry out sea level elevation collection, and judge whether sea level elevation meets preset height value, if so, then perform step 308.

308, offline mode is opened;

When judging whether sea level elevation meets preset height value for being, then open offline mode.

309, judge whether to be in offline mode, if be in offline mode, then perform step 310;

In the present embodiment, can be real-time further or judge whether to be in offline mode every a preset time, if be in offline mode, then perform step 310.

310, judge whether real-time speed reaches speed per hour threshold value of taking off, if real-time speed does not reach speed per hour threshold value of taking off, then perform step 311;

When judging whether to be in being judged as YES of offline mode, then judging whether real-time speed reaches speed per hour threshold value of taking off, if real-time speed does not reach speed per hour threshold value of taking off, then performing step 311.

311, carry out sea level elevation collection, and judge whether sea level elevation meets preset height value, if do not meet preset height value, then perform step 312.

When judge real-time speed do not reach take off speed per hour threshold value time, then carry out sea level elevation collection, and judge whether sea level elevation meets preset height value, if do not meet preset height value, then perform step 312.

312, offline mode is closed.

When judging that sea level elevation does not meet preset height value, then close offline mode.

In the present embodiment, whether the first set pressure interval value is met by the force value gathered bottom intelligent shoe, and the first set pressure interval value when taking a seat with user the pressure condition of intelligent shoe corresponding, again whether the real-time speed detected is reached to the judgement of speed per hour threshold value of taking off, just the operation that intelligent shoe carries out offline mode unlatching is automatically achieved, the wireless telecommunications system solved due to intelligent shoe inside cannot fetch out the control carrying out offline mode, and the technical matters cannot carrying out the control of offline mode to the wireless telecommunications system being arranged on intelligent shoe inside caused, and, judge whether force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and carry out the design of corresponding operation, achieve when aircraft is in just in take-off process, the judgement of the overweight pressure born bottom intelligent shoe, further increase the need of automatically opening the intelligent of offline mode, simultaneously, by first judging whether to be in offline mode, then just pressure can be carried out, the judgement of height above sea level or speed etc., automatically the closedown of offline mode is carried out when eligible, greatly increase user experience.

Refer to Fig. 4, an embodiment of a kind of offline mode control device provided in the embodiment of the present invention comprises: offline mode control device is arranged on bottom intelligent shoe;

First collecting unit 401, for the force value bottom Real-time Collection intelligent shoe;

First judging unit 402, for judging whether force value meets the first set pressure interval value, if so, then triggers the second judging unit 403;

Second judging unit 403, for whether reaching the judgement of speed per hour threshold value of taking off to the real-time speed calculated according to the first preset mode, if so, then triggers the first performance element 404;

First performance element 404, for opening offline mode;

When first set pressure interval value is taken a seat with user, the pressure condition of intelligent shoe is corresponding.

In the present embodiment, whether the force value gathered bottom intelligent shoe by the first judging unit 402 meets the first set pressure interval value, and the first set pressure interval value when taking a seat with user the pressure condition of intelligent shoe corresponding, whether the second judging unit 403 reaches the judgement of speed per hour threshold value of taking off again to the real-time speed detected, just achieve performance element 404 and open offline mode, just the operation that intelligent shoe carries out offline mode unlatching is automatically achieved, the wireless telecommunications system solved due to intelligent shoe inside cannot fetch out the control carrying out offline mode, and the technical matters cannot carrying out the control of offline mode to the wireless telecommunications system being arranged on intelligent shoe inside caused.

The above is described in detail each unit of offline mode control device, specifically will perform the first judging unit and the second judging unit below and be described in detail, refer to Fig. 5, an embodiment of a kind of offline mode control device provided in the embodiment of the present invention comprises: offline mode control device is arranged on bottom intelligent shoe;

First collecting unit 501, for the force value bottom Real-time Collection intelligent shoe;

First judging unit 502, for judging whether force value meets the first set pressure interval value, if so, then triggers the second judging unit 503;

Wherein, the first judging unit 502 can also comprise further:

First judgment sub-unit 5021, for judging whether force value meets the first set pressure interval value, if so, then triggers the second judging unit 503, if not, then triggers the 3rd judging unit 504;

Second judgment sub-unit 5022, for judging whether force value meets the first set pressure interval value, if so, then triggers the 4th judging unit 505, if not, then triggers the 3rd judging unit 504;

Second judging unit 503, for whether reaching the judgement of speed per hour threshold value of taking off to the real-time speed calculated according to the first preset mode, if so, then triggers the first performance element 507;

Second judging unit 503 specifically comprises:

Computation subunit 5031, for obtaining real-time speed by the current location information obtained by GPS module and the front positional information calculation once recorded;

3rd judgment sub-unit 5032, for judging whether real-time speed reaches speed per hour threshold value of taking off, if so, then carries out sea level elevation collection, and judges whether sea level elevation meets preset height value, if so, then triggers the first performance element 506.

3rd judging unit 504, for judging whether force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then triggers the second judging unit 503;

4th judging unit 505, for interval preset time period, the force value bottom intelligent shoe is gathered again, and judge whether the force value after again gathering meets the first set pressure interval value, if, then trigger the second judging unit 503, if not, then judge whether the force value after again gathering meets the second set pressure interval value corresponding with the overweight pressure that takes off, if so, the second judging unit 503 is then triggered.

First performance element 506, for opening offline mode;

When first set pressure interval value is taken a seat with user, the pressure condition of intelligent shoe is corresponding.

Offline mode control device in the present embodiment further comprises:

5th judging unit 507, is in offline mode for judging whether, if be in offline mode, then triggers the 6th judging unit 508;

6th judging unit 508, for judging whether real-time speed reaches speed per hour threshold value of taking off, if real-time speed does not reach speed per hour threshold value of taking off, then triggers the 7th judging unit 509;

7th judging unit 509, for carrying out sea level elevation collection, and judges whether sea level elevation meets preset height value, if do not meet preset height value, then and the second performance element 510.

Second performance element 510, for closing offline mode.

In the present embodiment, whether the force value gathered bottom intelligent shoe by the first judging unit 502 meets the first set pressure interval value, and the first set pressure interval value when taking a seat with user the pressure condition of intelligent shoe corresponding, whether the second judging unit 503 reaches the judgement of speed per hour threshold value of taking off again to the real-time speed detected, just achieve performance element 507 and open offline mode, just the operation that intelligent shoe carries out offline mode unlatching is automatically achieved, the wireless telecommunications system solved due to intelligent shoe inside cannot fetch out the control carrying out offline mode, and the technical matters cannot carrying out the control of offline mode to the wireless telecommunications system being arranged on intelligent shoe inside caused, and, 3rd judging unit 504 judges whether force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and carry out the design of corresponding operation, achieve when aircraft is in just in take-off process, the judgement of the overweight pressure born bottom intelligent shoe, further increase the need of automatically opening the intelligent of offline mode, simultaneously, first judge whether to be in offline mode by the 5th judging unit 507, then the 6th judging unit 508 and the 7th judging unit 509 just can carry out pressure, the judgement of height above sea level or speed etc., when eligible, the second performance element 510 carries out the closedown of offline mode, greatly increase user experience.

Those skilled in the art can be well understood to, and for convenience and simplicity of description, the system of foregoing description, the specific works process of device and unit, with reference to the corresponding process in preceding method embodiment, can not repeat them here.

In several embodiments that the application provides, should be understood that, disclosed system, apparatus and method, can realize by another way.Such as, device embodiment described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, such as multiple unit or assembly can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of device or unit or communication connection can be electrical, machinery or other form.

The described unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, or also can be distributed in multiple network element.Some or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, also can be that the independent physics of unit exists, also can two or more unit in a unit integrated.Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form of SFU software functional unit also can be adopted to realize.

If described integrated unit using the form of SFU software functional unit realize and as independently production marketing or use time, can be stored in a computer read/write memory medium.Based on such understanding, the part that technical scheme of the present invention contributes to prior art in essence in other words or all or part of of this technical scheme can embody with the form of software product, this computer software product is stored in a storage medium, comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform all or part of step of method described in each embodiment of the present invention.And aforesaid storage medium comprises: USB flash disk, portable hard drive, ROM (read-only memory) (ROM, Read-OnlyMemory), random access memory (RAM, RandomAccessMemory), magnetic disc or CD etc. various can be program code stored medium.

The above, above embodiment only in order to technical scheme of the present invention to be described, is not intended to limit; Although with reference to previous embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (10)

1. an offline mode control method, is characterized in that, comprising:

S1: the force value bottom Real-time Collection intelligent shoe;

S2: judge whether described force value meets the first set pressure interval value, if so, then performs step S3;

S3: the judgement whether real-time speed calculated according to the first preset mode being reached to speed per hour threshold value of taking off, if so, then performs step S4;

S4: open offline mode;

When described first set pressure interval value is taken a seat with user, the pressure condition of described intelligent shoe is corresponding.

2. offline mode control method according to claim 1, is characterized in that, described step S2 specifically comprises:

Judge whether described force value meets the first set pressure interval value, if so, then performs step S3, if not, then judge whether described force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then performs step S3.

3. offline mode control method according to claim 1, is characterized in that, described step S2 specifically comprises:

Judge whether described force value meets the first set pressure interval value, the force value if so, then performing preset time period gathers determining step, if not, then judge whether described force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then performs step S3;

The force value of described preset time period gathers determining step and comprises:

Interval preset time period gathers again to the force value bottom described intelligent shoe, and judge whether the described force value after again gathering meets the first set pressure interval value, if, then perform step S3, if not, then judge whether the described force value after again gathering meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then performs step S3.

4. offline mode control method as claimed in any of claims 1 to 3, it is characterized in that, step S3 specifically comprises:

The current location information obtained by GPS module and the front positional information once recorded are calculated according to preset mode, to obtain described real-time speed;

Judge whether described real-time speed reaches speed per hour threshold value of taking off, if so, then carry out sea level elevation collection, and judge whether described sea level elevation meets preset height value, if so, then perform step S4.

5. offline mode control method according to claim 4, is characterized in that, described offline mode control method also comprises:

Judge whether to be in offline mode, if be in offline mode, then judge whether described real-time speed reaches speed per hour threshold value of taking off, if described real-time speed does not reach speed per hour threshold value of taking off, then carry out sea level elevation collection, and judge whether described sea level elevation meets preset height value, if do not meet described preset height value, then close described offline mode.

6. an offline mode control device, is characterized in that, comprising:

First collecting unit, for the force value bottom intelligent shoe described in Real-time Collection;

First judging unit, for judging whether described force value meets the first set pressure interval value, if so, then triggers the second judging unit;

Described second judging unit, for whether reaching the judgement of speed per hour threshold value of taking off to the real-time speed calculated according to the first preset mode, if so, then triggers the first performance element;

Described first performance element, for opening offline mode;

When described first set pressure interval value is taken a seat with user, the pressure condition of described intelligent shoe is corresponding.

7. offline mode control device according to claim 6, is characterized in that, described first judging unit specifically comprises:

First judgment sub-unit, for judging whether described force value meets the first set pressure interval value, if so, then triggers described second judging unit, if not, then triggers the 3rd judging unit;

Described 3rd judging unit, for judging whether described force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then triggers described second judging unit.

8. offline mode control device according to claim 6, is characterized in that, described first judging unit specifically comprises:

Second judgment sub-unit, for judging whether described force value meets the first set pressure interval value, if so, then triggers the 4th judging unit, if not, then triggers the 3rd judging unit;

Described 3rd judging unit, for judging whether described force value meets the second set pressure interval value corresponding with the overweight pressure that takes off, and if so, then triggers described second judging unit;

Described 4th judging unit, for interval preset time period, the force value bottom described intelligent shoe is gathered again, and judge whether the described force value after again gathering meets the first set pressure interval value, if, then trigger described second judging unit, if not, then judge whether the described force value after again gathering meets the second set pressure interval value corresponding with the overweight pressure that takes off, if so, described second judging unit is then triggered.

9. according to the offline mode control device in claim 6 to 8 described in any one, it is characterized in that, the second judging unit specifically comprises:

Computation subunit, for calculating the current location information obtained by GPS module and the front positional information once recorded according to preset mode, to obtain described real-time speed;

3rd judgment sub-unit, for judging whether described real-time speed reaches speed per hour threshold value of taking off, if so, then carries out sea level elevation collection, and judges whether described sea level elevation meets preset height value, if so, then triggers described first performance element.

10. offline mode control device according to claim 9, is characterized in that, described offline mode control device also comprises:

5th judging unit, is in offline mode for judging whether, if be in offline mode, then triggers the 6th judging unit;

Described 6th judging unit, for judging whether described real-time speed reaches speed per hour threshold value of taking off, if described real-time speed does not reach speed per hour threshold value of taking off, then triggers the 7th judging unit;

Described 7th judging unit, for carrying out sea level elevation collection, and judging whether described sea level elevation meets preset height value, if do not meet preset height value, then triggering the second performance element;

Described second performance element, for closing described offline mode.