Summary of the invention
Embodiments provide a kind of position reminding method and user side, for the geographic position of the monitor user ' end of low-power consumption in long-time.
In view of this, embodiment of the present invention first aspect provides a kind of position reminding method, comprising:
User side determination target geographical area;
User side utilizes coprocessor by the user side position of the mode determination user side of inertial navigation;
When user side position is in target geographical area, user side performs prompting function.
In conjunction with first aspect, in the embodiment of the present invention first aspect the first possible embodiment in, user side determination target geographical area comprises:
User side determines corresponding destination according to the selection of user;
User side searches preset locally chart database, determines the target geographical area corresponding with destination.
In conjunction with first aspect, in the embodiment that in the embodiment of the present invention, the second of first aspect is possible, user side obtains key word in the input record of user, and key word comprises destination information, determines destination according to key word;
User side searches preset locally chart database, determines the target geographical area corresponding with destination.
In conjunction with first aspect, in the embodiment of the present invention first aspect the third possible embodiment in, user side utilizes coprocessor by comprising after the user side position of the mode determination user side of inertial navigation:
User side generates movement locus according to user side position;
User side determines the startup cycle starting GPS;
User side, according to the startup cycle, starts GPS and revises movement locus;
User side is according to revised movement locus determination user side position.
In conjunction with the third possible embodiment of first aspect, in the embodiment of the present invention first aspect the 4th kind of possible embodiment in, user side determines that starting startup cycle of GPS comprises:
User side obtains self translational speed;
When user side judges whether translational speed is greater than threshold value, if so, then determine that the startup cycle starting GPS is the first preset duration, if not, then determine that the startup cycle starting GPS is the second preset duration, the first duration is less than the second duration.
In conjunction with the third possible embodiment of first aspect, in the embodiment of the present invention first aspect the 4th kind of possible embodiment in, user side determines that starting startup cycle of GPS comprises:
User side infers object region according to movement locus;
User side judges whether object region exists with target geographical area and overlaps, if so, then determine that the startup cycle starting GPS is the 3rd preset duration, if not, then determine that the startup cycle starting GPS is the 4th preset duration, the 3rd duration is less than the 4th duration.
In conjunction with first aspect, or the first possible embodiment of first aspect, or the embodiment that the second of first aspect is possible, or the third possible embodiment of first aspect, or the 4th of first aspect the kind of possible embodiment, in the 5th kind of possible embodiment of first aspect, user side utilizes coprocessor by comprising before the user side position of the mode determination user side of inertial navigation:
User side utilizes action sensor to detect user side state;
If user side state is motion state, then activated user end utilizes coprocessor by the step of the user side position of the mode determination user side of inertial navigation.
Second aspect present invention provides a kind of user side, comprising:
First determination module, for determining target geographical area;
Second determination module, for utilizing coprocessor by the user side position of the mode determination user side of inertial navigation;
Judge module, for judging whether user side position is in target geographical area, if so, then triggers execution module, if not, then triggers the second determination module;
Execution module, for when user side position is in target geographical area, performs prompting function.
In conjunction with second aspect, in the embodiment of the present invention second aspect the first possible embodiment in, first determination module, specifically for determining corresponding destination according to the selection of user, is searched preset locally chart database, is determined the target geographical area corresponding with destination.
In conjunction with second aspect, in the embodiment that in the embodiment of the present invention, the second of second aspect is possible, first determination module also for obtaining key word in the input record of user, key word comprises destination information, destination is determined according to key word, search preset locally chart database, determine the target geographical area corresponding with destination.
In conjunction with second aspect, in the embodiment of the present invention second aspect the third possible embodiment in, user side also comprises:
Generation module, for generating movement locus according to user side position;
3rd determination module, for determining the startup cycle starting GPS;
Correcting module, revises movement locus for starting GPS according to the startup cycle;
4th determination module, for according to revised movement locus determination user side position.
In conjunction with second aspect, in the embodiment of the present invention second aspect the 4th kind of possible embodiment in, 3rd determination module is specifically for obtaining self translational speed, when judging whether translational speed is greater than threshold value, if so, then determine that the startup cycle starting GPS is the first preset duration, if not, then determine that the startup cycle starting GPS is the second preset duration, the first duration is less than the second duration.
In conjunction with second aspect, in the embodiment of the present invention second aspect the 5th kind of possible embodiment in, 3rd determination module is also for inferring object region according to movement locus, judge whether object region exists with target geographical area to overlap, if so, then determine that the startup cycle starting GPS is the 3rd preset duration, if not, then determine that the startup cycle starting GPS is the 4th preset duration, the 3rd duration is less than the 4th duration.
In conjunction with second aspect, the first possible embodiment of second aspect in the embodiment of the present invention, the embodiment that in the embodiment of the present invention, the second of second aspect is possible, the third possible embodiment of second aspect in the embodiment of the present invention, 4th kind of possible embodiment of second aspect in the embodiment of the present invention, in 5th kind of possible embodiment of second aspect in embodiments of the present invention, user side also comprises:
Detection module, detects user side state for utilizing action sensor.
As can be seen from the above technical solutions, the embodiment of the present invention has the following advantages:
Arrive in the process of destination at user side, user side can utilize coprocessor by the mode determination user side position of inertial navigation, the power consumption run due to coprocessor is very low, without the need to opening GPS function for a long time, thus the present invention can in long-time the geographic position of the monitor user ' end of low-power consumption.
Embodiment
Embodiments provide a kind of position reminding method and user side, for the geographic position of the monitor user ' end of long-time interior low-power consumption.
Refer to Fig. 1, in the embodiment of the present invention, an embodiment of position based reminding method comprises:
101, user side determination target geographical area;
In the present embodiment, user side can determine target geographical area.
102, user side utilizes coprocessor by the user side position of the mode determination user side of inertial navigation;
Inertial navigation utilizes action sensor to measure the acceleration of carrier, and according to the speed of acceleration calculation carrier self and a kind of method of position, coprocessor is a kind of low power processor.
User side can utilize coprocessor by the user side position of the mode determination user side of inertial navigation.
103, user side judges whether user side position is in target geographical area, if so, then performs step 104;
User side judges whether user side position is in target geographical area, if so, then shows that user side position is near target geographical area.
104, user side performs prompting function.
When user side position is in target geographical area, user side performs prompting function.
Arrive in the process of destination at user side, user side can utilize coprocessor by the mode determination user side position of inertial navigation, the power consumption run due to coprocessor is very low, without the need to opening GPS function for a long time, thus the present invention can in long-time the geographic position of the monitor user ' end of low-power consumption.In actual applications, user side can obtain target geographical area in several ways, realizes especially by with under type:
One, according to the selection of user:
201, user side determines corresponding destination according to the selection of user;
In the present embodiment, after user side selects your destination, user side determines destination according to the selection of user.
202, user side searches preset locally chart database, determines the target geographical area corresponding with destination;
After user side determines destination, search preset locally chart database, determine the target geographical area corresponding with destination.
Target geographical area can be take destination as the center of circle, and certain distance is the circle of radius, can also be centered by destination, and certain distance is the square of the length of side, can also be the region of other rule definition, specifically be not construed as limiting herein.
203, user side utilizes action sensor to detect user side state;
User side can utilize action sensor to detect the state of user side.
204, user side judges whether user side state is motion state, if so, then performs step 205, if not, then performs step 203;
User side judges whether user side is kept in motion, and if so, then shows that user side is kept in motion, and performs step 205, if not, then shows that user side remains static, and performs step 203.
205, user side utilizes coprocessor by the user side position of the mode determination user side of inertial navigation;
Inertial navigation utilizes action sensor to measure the acceleration of carrier, and according to the speed of acceleration calculation carrier self and a kind of method of position, coprocessor is a kind of low power processor.
User side can utilize action sensor to measure the data such as acceleration and angle of inclination of user side, utilizes coprocessor to calculate described data, determines user side position.
206, user side generates movement locus according to user side position;
After user side determination user side position, connect the user side position in a period of time successively according to the sequencing of time, generate the movement locus of user side.
207, user side determines the startup cycle starting GPS;
User side determines the startup cycle starting GPS.
208, user side is according to the startup cycle, starts GPS and revises movement locus;
After user side determines the startup cycle, according to the startup cycle, start GPS and movement locus is revised.
209, user side is according to revised movement locus determination user side position;
After user side correction motion track, according to revised movement locus determination user side position.
210, user side judges whether user side position is in target geographical area, if so, then performs step 212, if not, then performs step 211;
User side judges whether user side position is in target geographical area, if so, then shows that user side position is near destination, if not, then shows that user side position is not near destination.
211, user side closes GPS, performs step 205;
When user side position is in outside target geographical area, user side closes GPS, continues the user side position of the mode determination user side utilizing coprocessor by inertial navigation.
212, user side performs prompting function.
When user side position is in target geographical area, user side performs prompting function reminding user.
The mode performing prompting function can be play window, vibrations or jingle bell, can also be other alerting patterns, not do concrete restriction herein.
Arrive in the process of destination at user side, user side can utilize coprocessor by the mode determination user side position of inertial navigation, the power consumption run due to coprocessor is very low, without the need to opening GPS function for a long time, thus the present invention can in long-time the geographic position of the monitor user ' end of low-power consumption.
Two, obtain from the input record of user:
Refer to Fig. 3, in the embodiment of the present invention, another embodiment of position based reminding method comprises:
301, user side obtains key word in the input record of user;
In the present embodiment, user side obtains key word in the input record of user, and key word comprises destination information, and the input record of user can be notepad or schedule, can also be the record of other types, does not this time do concrete restriction.
302, user side determines destination according to key word;
After user side obtains key word, by the destination that semantic analysis algorithm determination key word is corresponding.
303, user side searches preset locally chart database, determines the target geographical area corresponding with destination;
After user side determines destination, search preset locally chart database, determine the target geographical area corresponding with destination.
Target geographical area can be take destination as the center of circle, and certain distance is the circle of radius, can also be centered by destination, and certain distance is the square of the length of side, can also be the region of other rule definition, specifically be not construed as limiting herein.
304, user side utilizes action sensor to detect user side state;
User side can utilize action sensor to detect the state of user side.
305, user side judges whether user side state is motion state, if so, then performs step 306, if not, then performs step 304;
User side judges whether user side is kept in motion, and if so, then shows that user side is kept in motion, and performs step 306, if not, then shows that user side remains static, and performs step 304.
306, user side utilizes coprocessor by the user side position of the mode determination user side of inertial navigation;
Inertial navigation utilizes action sensor to measure the acceleration of carrier, and according to the speed of acceleration calculation carrier self and a kind of method of position, coprocessor is a kind of low power processor.
User side can utilize action sensor to measure the data such as acceleration and angle of inclination of user side, utilizes coprocessor to calculate described data, determines user side position.
307, user side generates movement locus according to user side position;
After user side determination user side position, connect user side position successively according to time sequencing and generate movement locus.
308, user side determines the startup cycle starting GPS;
User side determines the startup cycle starting GPS.
309, user side is according to the startup cycle, starts GPS and revises movement locus;
After user side determines the startup cycle, according to the startup cycle, start GPS and movement locus is revised.
310, user side is according to revised movement locus determination user side position.
After user side correction motion track, according to revised movement locus determination user side position.
311, user side judges whether user side position is in target geographical area, if so, then performs step 313, if not, then performs step 312;
User side judges whether user side position is in target geographical area, if so, then shows that user side position is near destination, if not, then shows that user side position is not near destination.
312, user side closes GPS, performs step 306;
When user side position is in outside target geographical area, user side closes GPS, continues the user side position of the mode determination user side utilizing coprocessor by inertial navigation.
313, user side performs prompting function.
When user side position is in target geographical area, user side performs prompting function reminding user.
The mode performing prompting function can be play window, vibrations or jingle bell, can also be other modes, not do concrete restriction herein.
Arrive in the process of destination at user side, user side can utilize coprocessor by the mode determination user side position of inertial navigation, the power consumption run due to coprocessor is very low, without the need to opening GPS function for a long time, thus the present invention can in long-time the geographic position of the monitor user ' end of low-power consumption.
In actual applications, user side can determine the cycle starting GPS in several ways, specific as follows:
One, determined by translational speed:
Refer to Fig. 4, in the embodiment of the present invention, another embodiment of position based reminding method comprises:
401, user side determination target geographical area;
In the present embodiment, the step of user side determination target geographical area and Fig. 2 or embodiment illustrated in fig. 3ly middlely determine that the step of target geographical area is similar, repeat no more herein.
402, user side utilizes coprocessor by the user side position of the mode determination user side of inertial navigation;
Inertial navigation utilizes action sensor to measure the acceleration of carrier, and according to the speed of acceleration calculation carrier self and a kind of method of position, coprocessor is a kind of low power processor.
User side can utilize action sensor to measure the data such as acceleration and angle of inclination of user side, utilizes coprocessor to calculate described data, determines user side position.
403, user side obtains self translational speed;
User side can utilize action sensor to measure the data such as acceleration and angle of inclination of user side, utilizes coprocessor to calculate described data, determines user side translational speed.
404, user side judges whether translational speed is greater than threshold value, if so, then performs step 405, if not, then performs step 407;
User side judges whether translational speed is greater than threshold value after obtaining translational speed, if, then show that user side translational speed is very fast, comparatively short time interval starts GPS can to set one, if not, then show that translational speed is comparatively slow, a longer period of time can be set to start GPS.
Threshold value can set according to user's trip mode, such as can arrange one or more threshold value according to different trip modes such as walking, bicycle or automobiles, not do concrete restriction herein.
405, user side determines that the startup cycle starting GPS is the first preset duration;
Threshold value is when user side determination translational speed is greater than threshold value, and user side determines that the startup cycle starting GPS is the first preset duration.
Be understandable that, this first duration rule of thumb or can test acquired results setting, does not do concrete restriction herein.
406, user side is according to the first duration, starts GPS and revises movement locus, perform step 409;
When the startup cycle is the first duration, when arriving the finish time of the first duration, user side starts GPS and revises movement locus.
407, user side determines that the startup cycle starting GPS is the second preset duration;
When user side determination translational speed is less than threshold value, user side determines that the startup cycle starting GPS is the second preset duration, and the first duration is less than the second duration.
Be understandable that, this first duration and the second duration rule of thumb or can test acquired results setting, do not do concrete restriction herein.
408, user side is according to the second duration, starts GPS and revises movement locus;
When the startup cycle is the second duration, when arriving the finish time of the second duration, user side starts the movement locus of GPS to user side and revises.
409, user side is according to revised movement locus determination user side position;
After user side correction motion track, according to revised movement locus determination user side position.
410, user side judges whether user side position is in target geographical area, if so, then performs step 412, if not, then performs step 411;
User side judges whether user side position is in target geographical area, if so, then shows that user side position is near destination, if not, then shows that user side position is not near destination.
411, user side closes GPS, performs step 402;
When user side position is in outside target geographical area, user side closes GPS, continues the user side position of the mode determination user side utilizing coprocessor by inertial navigation.
Be understandable that, in actual applications, if do not need to close GPS, also can not perform this step, directly perform step 402, do not do concrete restriction herein.
412, user side performs prompting function.
When user side position is in target geographical area, user side performs prompting function.
The mode performing prompting function can be play window, vibrations or jingle bell, can also be other modes, not do concrete restriction herein.
Arrive in the process of destination at user side, user side can utilize coprocessor by the mode determination user side position of inertial navigation, the power consumption run due to coprocessor is very low, without the need to opening GPS function for a long time, thus the present invention can in long-time the geographic position of the monitor user ' end of low-power consumption.
Two, by inferring whether the object region that obtains and target geographical area exist coincidence and determine:
Refer to Fig. 5, in the embodiment of the present invention, another embodiment of position based reminding method comprises:
501, user side determination target geographical area;
In the present embodiment, the step of user side determination target geographical area and Fig. 2 or embodiment illustrated in fig. 3ly middlely determine that the step of target geographical area is similar, repeat no more herein.
502, user side utilizes coprocessor by the user side position of the mode determination user side of inertial navigation;
Inertial navigation utilizes action sensor to measure the acceleration of carrier, and according to the speed of acceleration calculation carrier self and a kind of method of position, coprocessor is a kind of low power processor.
User side can utilize coprocessor by the user side position of the mode determination user side of inertial navigation.
503, user side infers object region according to movement locus;
Centered by the place that the certain hour that moves along movement locus arrives, radius be certain distance region for the purpose of region, user side generates after movement locus, infers object region according to movement locus.
504, user side judges whether object region exists with target geographical area and overlaps, and if so, then performs 505, if not, then performs 506;
User side judges whether object region exists with target geographical area and overlaps, if overlap, show along movement locus advance region on purpose, if do not overlap, show along movement locus advance region there is no destination.
505, user side determines that the startup cycle starting GPS is the 3rd preset duration;
When user side determination object region and target geographical area exist overlap time, user side determines that starting startup cycle of GPS is the 3rd preset duration.
Be understandable that, the 3rd duration rule of thumb or can test acquired results setting, does not do concrete restriction herein.
506, user side is revised movement locus according to the 3rd duration startup GPS, performs step 509;
After user side obtains the 3rd duration, start GPS according to the 3rd duration and movement locus is revised.
507, user side determines that the startup cycle starting GPS is the 4th preset duration;
When user side determination object region and target geographical area do not exist overlap time, user side determines that starting startup cycle of GPS is the 4th preset duration, and the 4th duration is greater than the 3rd duration.
Be understandable that, the 3rd duration and the 4th duration rule of thumb or can test acquired results setting, do not do concrete restriction herein.
508, user side is according to the 4th duration, starts GPS and revises movement locus;
After user side obtains the 4th duration, according to the 4th duration, start GPS and movement locus is revised.
509, user side is according to revised movement locus determination user side position;
After user side correction motion track, according to revised movement locus determination user side position.
510, user side judges whether user side position is in target geographical area, if so, then performs step 512, if not, then performs step 511;
User side judges whether user side position is in target geographical area, if so, then shows that user side position is near destination, if not, then shows that user side position is not near destination.
511, user side closes GPS, performs step 502;
When user side position is in outside target geographical area, user side closes GPS, continues the user side position of the mode determination user side utilizing coprocessor by inertial navigation.
Be understandable that, in actual applications, if do not need to close GPS, also can not perform this step, directly perform step 502, do not do concrete restriction herein.
512, user side performs prompting function.
When user side position is in target geographical area, user side performs prompting function.
The mode performing prompting function can be play window, vibrations or jingle bell, can also be other modes, not do concrete restriction herein.
Arrive in the process of destination at user side, user side can utilize coprocessor by the mode determination user side position of inertial navigation, the power consumption run due to coprocessor is very low, without the need to opening GPS function for a long time, thus the present invention can in long-time the geographic position of the monitor user ' end of low-power consumption.
For ease of understanding, below to be described in detail position based reminding method in the embodiment of the present invention with embody rule scene:
User side can be mobile phone or panel computer, also can be other application terminals, not do concrete restriction herein.
For mobile phone, mobile phone obtains " haircut " from schedule, by semantic analysis algorithm, determine that destination is " barber shop " according to " haircut ", the map that mobile phone searching the machine stores, determine the barber shop position in 5 kilometers, centered by barber shop, 100 meters is that radius is as target geographical area.Target geographical area can be one or more, is understandable that, target geographical area can also be the scope that additive method specifies, does not this time do concrete restriction.
When the walking of user's carrying mobile phone, mobile phone utilizes action sensor detection of handset state, if be kept in motion, then first mobile phone determines initial position, action sensor is utilized to collect acceleration and the angle of inclination data of mobile phone, utilize coprocessor process acceleration and angle of inclination data, determine current location and the speed of mobile phone.
Assuming that mobile phone detects that the translational speed of self is less than 80 ms/min, the cycle that mobile phone setting starts GPS is 10 minutes, mobile phone just started a GPS and positions mobile phone every 10 minutes, and being revised according to the movement locus of position data to mobile phone that GPS obtains, and the current location of more new cell-phone.
If the mobile phone location that mobile phone utilizes inertial navigation to obtain is in target geographical area, then handset starting GPS positions mobile phone, if the position that GPS obtains is in target geographical area, then mobile phone is to play the mode reminding users such as window, vibrations or jingle bell, if the position that GPS obtains is in outside target geographical area, then mobile phone cuts out GPS, and continues to utilize the mode of inertial navigation to obtain mobile phone location.
When user's carrying mobile phone is driven, assuming that mobile phone detects that self translational speed is greater than 100 ms/min, the cycle that mobile phone setting starts GPS is 3 minutes, mobile phone just started a GPS and positions mobile phone every 3 minutes, and revised according to the movement locus of position data to mobile phone that GPS obtains, and the current location of more new cell-phone, if the position of mobile phone is in target geographical area, then mobile phone is to play the mode reminding users such as window, vibrations or jingle bell.
Be understandable that, the handset starting GPS cycle can also be set as other values according to actual conditions, does not do concrete restriction herein.
From the angle of method, position based reminding method the embodiment of the present invention is described above, from the angle of device, user side the embodiment of the present invention is described below:
Refer to Fig. 6, in the embodiment of the present invention, an embodiment of user side comprises:
First determination module 601, for determining target geographical area;
Second determination module 602, for utilizing coprocessor by the user side position of the mode determination user side of inertial navigation;
Judge module 603, for judging the target geographical area whether user side position that the second determination module 602 is determined is in the first determination module 601 and determines, if so, then triggering execution module 604, if not, then triggering the second determination module 602;
Execution module 604, for when user side position is in target geographical area, performs prompting function.
Arrive in the process of destination at user side, user side can utilize coprocessor by the mode determination user side position of inertial navigation, the power consumption run due to coprocessor is very low, without the need to opening GPS function for a long time, thus the present invention can in long-time the geographic position of the monitor user ' end of low-power consumption.
Refer to Fig. 7, in the embodiment of the present invention, another embodiment of user side comprises:
First determination module 701, for determining target geographical area;
Detection module 702, detects user side state for utilizing action sensor;
Second determination module 703, for utilizing coprocessor by the user side position of the mode determination user side of inertial navigation;
Generation module 704, generates movement locus for the user side position determined according to the second determination module 703;
3rd determination module 705, for determining the startup cycle starting GPS;
Correcting module 706, the startup cycle for determining according to the 3rd determination module 705 starts GPS and revises the movement locus that generation module 704 generates;
4th determination module 707, for according to revised movement locus determination user side position;
Judge module 708, for judging the target geographical area whether user side position that the 4th determination module 707 is determined is in the first determination module 701 and determines, if so, then triggering execution module 709 and performing prompting function, if not, then trigger processing module 710 and close GPS;
Execution module 709, for when judge module 708 determines that user side position is in target geographical area, performs prompting function;
Processing module 710, for when judge module 708 determines that user side position is in outside target geographical area, closes GPS, and triggers the second determination module 703.
It should be noted that, detection module 702 is optional module, and in actual applications, if do not detect user side state, so user side can not have detection module, does not do concrete restriction herein.
Wherein, the first determination module 701, specifically for determining corresponding destination according to the selection of user, is searched preset locally chart database, is determined the target geographical area corresponding with destination;
Or,
First determination module 701 also for obtaining key word in the input record of user, and key word comprises destination information, determines destination according to key word, searches preset locally chart database, determine the target geographical area corresponding with destination.
Wherein, 3rd determination module 705 is specifically for obtaining self translational speed, when judging whether translational speed is greater than threshold value, if, then determine that the startup cycle starting GPS is the first preset duration, if not, then determine that the startup cycle starting GPS is the second preset duration, the first duration is less than the second duration;
Or,
3rd determination module 705 is also for inferring object region according to movement locus, judge whether object region exists with target geographical area to overlap, if, then determine that the startup cycle starting GPS is the 3rd preset duration, if not, then determine that the startup cycle starting GPS is the 4th preset duration, the 3rd duration is less than the 4th duration.
Wherein, processing module 710 is optional module, and in actual applications, if do not need to close GPS, user side can not have processing module 710, does not do concrete restriction herein.
Arrive in the process of destination at user side, user side can utilize coprocessor by the mode determination user side position of inertial navigation, the power consumption run due to coprocessor is very low, without the need to opening GPS function for a long time, thus the present invention can in long-time the geographic position of the monitor user ' end of low-power consumption.
For ease of understand, below with an embody rule scene to being described in detail alternately between the modules of user side in the embodiment of the present invention:
In the present embodiment, the first determining unit 701 obtains key word in the input record of user, and key word comprises destination information, determines destination according to key word, searches preset locally chart database, determines the target geographical area corresponding with destination.
Detection module 702 can utilize action sensor to detect the state of user side, if user side state is motion state, then the second determination module 703 can utilize coprocessor by the user side position of the mode determination user side of inertial navigation, if user side state is static, detection module 702 continues the state detecting user side.
3rd determination module 705 obtains self translational speed, when judging whether translational speed is greater than threshold value, if, then determine that the startup cycle starting GPS is the first preset duration, if not, then determine that the startup cycle starting GPS is the second preset duration, the first duration is less than the second duration;
Or,
3rd determination module 705 infers object region according to movement locus, judge whether object region exists with target geographical area to overlap, if, then determine that the startup cycle starting GPS is the 3rd preset duration, if not, then determine that the startup cycle starting GPS is the 4th preset duration, the 3rd duration is less than the 4th duration.
In the startup cycle that correcting module 706 is determined according to the 3rd determination module 705, start GPS and the movement locus that generation module 704 generates is revised.
The described startup cycle is the first preset duration, the second preset duration, the 3rd preset duration or the 4th preset duration.
After 4th determination module 707 correction motion track, according to revised movement locus determination user side position.
Judge module 708 judges whether user side position is in target geographical area, and if so, then execution module 709 performs prompting function, and if not, then processing module 710 closes GPS, and triggers the second determination module 703.
The mode performing prompting function can be play window, vibrations or jingle bell, can also be other modes, not do concrete restriction herein.
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 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, Random Access Memory), 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.