CN103364756B - Virtual same time-space motion system and method - Google Patents

Abstract

The invention provides a virtual same time-space motion system, comprising a mode setting module, a data obtaining module, a map adaptive module and a virtual motion module, wherein the mode setting module is used for setting identification information of a user and determining that the virtual same time-space motion system is set into a challenge mode or a non-challenge mode; when the virtual same time-space motion system is set into the challenge mode, the mode setting module is used for identifying a to-be-challenged person selected by the user and obtaining the identification information and the motion information of the to-be-challenged person; the data obtaining module is used for obtaining the motion data and the geographic position of the user; the map adaptive module is used for loading and displaying a map which is matched with the current geographic position of the user; the current geographic position of the user is obtained by the data obtaining module in a nearest data obtaining point in time; and the virtual motion module is used for determining the display positions of the identification information of the user and the to-be-challenged person on the map when the virtual same time-space motion system is set into the challenge mode, and respectively displaying the identification information of the user and the to-be-challenged person on the determinate display positions.

Description

Virtual same time-space motion system and method

Technical field

The application relates to a kind of virtual same time-space motion system and method, more particularly, relate to a kind of can analog subscriber and on-the-spot and another user non-existent virtual same time-space motion system and method with spatiotemporal motion.

Background technology

Along with user is for the continuous increase of the demand of mobile device (such as, mobile terminal), the function that mobile device has also becomes varied.Except basic communication function, present mobile device can also provide the functions such as audio/video playback, shooting, GPS navigation.And, along with the raising of soft hardware performance being applied to mobile device, the application program that the basis of mobile device is developed also becomes varied, thus the user of mobile device can according to the demand of oneself by realizing various different purposes from the application program desired by web download.

Such as, can provide in present mobile device and relevant application of moving, the user of mobile device is made in the process of motion, to use this should be used for obtaining some motion-dependent datas (such as, run duration, move distance, speed, moving line etc.), thus user can grasp the movable information of oneself more easily.But current application is confined to individual subscriber usually, only make user understand the motion conditions of self, user is difficult to know the movable information of other users under identical environment or condition (such as, velocity etc.).

Therefore, need a kind of user of making easily can know the movable information of other users, and understand the motion conditions of oneself whereby, thus manage oneself movable information and exercise program etc. more easily.

Summary of the invention

The object of the present invention is to provide a kind of system and method that can be used for the movable information of management and recording user.

Another object of the present invention is to provide a kind of can analog subscriber and on-the-spot and another user non-existent virtual same time-space motion system and method with spatiotemporal motion.

According to an aspect of the present invention, provide a kind of virtual same time-space motion system, described system comprises: pattern arranges module, for arranging the identification information of user, and determine that virtual same time-space motion system is set to challenge pattern or is set to non-challenge pattern, when virtual same space-time system is set to challenge pattern, identify by user select by challenger and obtain by the identification information of challenger and movable information; Data acquisition module, for obtaining exercise data and the geographic position of user; Map adaptation module, for loading and showing the map matched with the current geographic position of user, the geographic position of the current geographic position of the user user that to be data acquisition module obtain at nearest data obtaining time point; Fantasy sport module, when virtual same space-time system is set to challenge pattern, determine user with by the display position of the identification information of challenger on map, and show respectively on the display position determined user with by the identification information of challenger.

When virtual same space-time system is set to non-challenge pattern, fantasy sport module only can determine the display position of the identification information of user on map, and on the display position determined, show the identification information of user.

Described data acquisition module can comprise: timing module, determines to the motion timing of user the data obtaining time point obtaining exercise data and geographic position; Geographic position acquisition module, for obtaining the geographic position of user by timing module established data acquisition time point; Motion capture module, for obtaining the exercise data of user by timing module established data acquisition time point.

Described map adaptation module can comprise: map load-on module, for obtaining the map that mates with the current geographic position of user from map server and showing described map; Whether direction adaptation module, change for the direction of motion detecting user, when the direction of motion of user changes, produces direction control signal and direction control signal is sent to map load-on module; For detecting map, visual angle adaptation module, checks whether visual angle is changed, when map checks that visual angle changes, produce viewing angle control signal and viewing angle control signal is sent to map load-on module; Wherein, after map load-on module loads and shows map, map load-on module changes the display direction of described map according to the direction control signal received from direction adaptation module, and changes described map denotation to the visual angle of user according to the viewing angle control signal received from visual angle adaptation module.

Described fantasy sport module can comprise: loading position adaptation module, for the geographic position of user that obtains according to data acquisition module and exercise data and pattern arrange that module obtains by the movable information of challenger, determine user and by the display position of the identification information of challenger on map; Loading velocity adaptation module, map upgrades user and by the renewal frequency of the display position of the identification information of challenger for being arranged on; Image load-on module, for the user determined by loading position adaptation module with the display position of the identification information of challenger is shown respectively the identification information of user and by the identification information of challenger, and according to the renewal frequency that loading velocity adaptation module is determined upgrade user identification information and by the display position of the identification information of challenger on map.

Described movable information can comprise the exercise datas that are one or more and that obtain at each data obtaining time point in type of sports when user moves at every turn, sports center, moving line, average movement velocity, total motion duration, total move distance.Can comprise at the exercise data of each data obtaining time point: at the instant movement velocity of each data obtaining time point, the motion duration of time point to current data acquisition time point from motion and move distance.Described moving line can be represented by the geographic position obtained at each data obtaining time point.

Described map can be streetscape map.

Described timing module can determine obtaining the exercise data of user and next data obtaining time point in geographic position at the exercise data of current data acquisition time point according to user, or described timing module can arrange each data obtaining time point with Fixed Time Interval.

According to a further aspect in the invention, provide a kind of virtual same time-space motion method, described method comprises: identification information a) arranging user; B) determining whether to select challenge pattern, when have selected challenge pattern, identifying being obtained by the identification information of challenger and movable information by challenger of being selected by user; C) exercise data and the geographic position of user is obtained; D) load and show the map matched with the current geographic position of user, wherein, the current geographic position of user is the geographic position of the user in the acquisition of nearest data obtaining time point; E) determine user with by the display position of the identification information of challenger on map, and show respectively on the display position determined user with by the identification information of challenger.

When have selected non-challenge pattern, described step e) only can determine the display position of the identification information of user on map, and on the display position determined, show the identification information of user.

Step c) can comprise: c1) the motion timing of user is determined obtaining the data obtaining time point in exercise data and geographic position; C2) obtain the geographic position of user at established data acquisition time point, and obtain the exercise data of user at established data acquisition time point.

Steps d) can comprise: d1) obtain from map server the map that mates with the current geographic position of user and show described map; Whether the direction of motion d2) detecting user changes, and when the direction of motion of user changes, produces direction control signal and sends described direction control signal; D3) detect map and check whether visual angle is changed, when map checks that visual angle changes, produce viewing angle control signal and send described viewing angle control signal; Wherein, after map is loaded and shows, according to the display direction changing described map from described direction control signal, and change described map denotation to the visual angle of user according to described viewing angle control signal.

Step e) can comprise: e1) according to the geographic position of user and exercise data and acquisition by the movable information of challenger, determine user and by the display position of the identification information of challenger on map; E2) be arranged on and map upgrade user and by the renewal frequency of the display position of the identification information of challenger; E3) the user determined with the display position of the identification information of challenger is shown respectively the identification information of user and by the identification information of challenger, and according to the renewal frequency arranged upgrade user identification information and by the display position of the identification information of challenger on map.

Described movable information can comprise the exercise datas that are one or more and that obtain at each data obtaining time point in type of sports when user moves at every turn, sports center, moving line, average movement velocity, total motion duration, total move distance.Can comprise at the exercise data of each data obtaining time point: motion duration to current data acquisition time point of the instant movement velocity of each data obtaining time point, time point from motion and move distance.Described moving line can be represented by the geographic position obtained at each data obtaining time point.

Described map can be streetscape map.

Can determine obtaining the exercise data of user and next data obtaining time point in geographic position at the exercise data of current data acquisition time point according to user, or each data obtaining time point can be set with Fixed Time Interval.

Accompanying drawing explanation

By below in conjunction with the description of accompanying drawing to exemplary embodiment of the present, above and other object of the present invention and feature will become apparent, wherein:

Fig. 1 illustrates the structure of the virtual same time-space motion system according to the embodiment of the present invention;

Fig. 2 illustrates the structure of the data acquisition module of the virtual same time-space motion system according to the embodiment of the present invention;

Fig. 3 is the block diagram of the map adaptation module of the virtual same time-space motion system illustrated according to the embodiment of the present invention;

Fig. 4 A to Fig. 4 B is the schematic diagram illustrating that map loads and shows;

Fig. 5 is the block diagram of the structure of the fantasy sport module of the virtual same time-space motion system illustrated according to the embodiment of the present invention;

Fig. 6 A to Fig. 6 C is the design sketch that the virtual same time-space motion shown over the display is shown;

Fig. 7 illustrates the process flow diagram using and carry out the method for virtual same time-space motion according to the virtual same time-space motion system of the embodiment of the present invention.

Embodiment

Below, describe exemplary embodiment of the present invention more fully with reference to the accompanying drawings, its exemplary embodiment is shown in the drawings.But, can exemplifying embodiment embodiment in many different forms, and the present invention should not be construed as limited to exemplary embodiment set forth herein.On the contrary, these embodiments are provided to be to make the disclosure thoroughly with complete, and fully the scope of exemplary embodiment will will be conveyed to those skilled in the art.

Fig. 1 is the structure of the virtual same time-space motion system 100 illustrated according to embodiment.

As shown in Figure 1, virtual same time-space motion system 100 according to the present invention comprises: data acquisition module 110, map adaptation module 120, fantasy sport module 130 and pattern arrange module 140.Described virtual same time-space motion system 100 can be applied at such as mobile terminal or similar having in the mobile device of display device.

Virtual same time-space motion system 100 according to the present invention can be set to non-challenge pattern and challenge pattern.

With reference to Fig. 1, when user enables virtual same time-space motion system, pattern arranges the identification information that module 140 can be used for arranging user, and determines that virtual same time-space motion system 100 is set to challenge pattern or is set to non-challenge pattern.When virtual same space-time system 100 is set to challenge pattern by user, pattern arrange module 140 identifiable design by the user as challenger select by challenger and obtain by the identification information of challenger and movable information.

Specifically, when virtual same time-space motion system 100 is set to non-challenge pattern by user, user in motion (such as, running, footrace, by bike or other similar motions) time can use virtual same time-space motion system 100 to record and manage oneself movable information (such as, move distance, movement velocity, run duration etc.).

When virtual same time-space motion system 100 is set to challenge pattern, user arranges module 140 by pattern and selects and obtain another user (hereinafter, be called by challenger) the information such as movable information (described be recorded by the information of challenger and be stored in storer (not shown)), thus can to simulate in user movement process and the effect of being carried out same spatiotemporal motion by challenger and racing.If be have recorded its movable information repeatedly moved for this by challenger, then user can select the movable information once moved wherein.Selectively, when user enables virtual same space-time system 100 and have selected challenge pattern, user also arranges module 140 by pattern and arranges alternative condition (such as, if user plans to run, then usually select its sports events also for the people run is as by challenger, if user moves in mountain region, then usually select its sports center also for the people in mountain region is as by challenger, thus ensure the authenticity of virtual same time-space motion), thus retrieve meet alternative condition that user arranges by challenger.

That is, virtual same time-space motion system 100 analog subscriber and another user current and non-existent can carry out the effect of racing.In this way, user can be made when moving to grasp the motion conditions of oneself intuitively, and owing to adding the effect of virtual sports, the interest of user movement is strengthened greatly, especially, when using streetscape map, user can be made to experience real moving scene with a kind of visual experience having more picture sense and the sense of reality of simulating reality.Should be appreciated that, owing to only utilizing by the historical movement information of challenger to simulate virtual same time-space motion in the present invention, therefore can also be the historical movement information of this user oneself by the movable information of challenger.

Virtual same time-space motion system 100 of the present invention is described in detail below with reference to accompanying drawing.Conveniently explain, hypothesis uses streetscape map in the present invention.

With reference to Fig. 1, data acquisition module 110 obtains exercise data and the geographic position of user after being used in user's setting in motion.Map adaptation module 120 can be used for loading and shows the map matched with the current geographic position of user, and the current geographic position of described user is the user geographic position that data acquisition module 110 obtains at nearest data obtaining time point.Fantasy sport module 130 can when virtual same space-time system be set to challenge pattern, determine user with by the display position of the identification information of challenger on map, and show respectively on the display position determined user with by the identification information of challenger.Selectively, when virtual same space-time system 100 is set to non-challenge pattern, fantasy sport module 130 only can determine the display position of the identification information of user on map, and on the display position determined, show the identification information of user, thus virtual same time-space motion system 100 is only utilized to manage and the movable information of recording user self.

Also can comprise storer (not shown) according to virtual same time-space motion system 100 of the present invention and store the movable information of user and the identification information (such as, the name or virtual image etc. of user) of user.The movable information moved about this can store in memory by user after motion terminates, and also the identification information of representative of consumer can be stored in memory together, wherein, identification information can be user's (such as, user registers and the identification information stored in advance in memory) of pre-setting or newly-installed for each motion.Selectively, user also can carry out registering (such as in advance in memory, register an account) and identification information is set, under the movable information obtained after user moves at every turn can be stored in same user account, thus be conducive to user movable information is managed.The user movement information in memory of storage and identification information can afterwards as by the information of challenger by other users or user oneself for virtual same time-space motion.

Should be appreciated that, described storer can be the local storage on the server of network side or the mobile device of user side.When described arrangements of memory is at network side, the movable information obtained in motion at every turn and the identification information of user can be uploaded described storer via network by data acquisition module 110, and being downloaded to the mobile device of user side by the movable information of challenger and identification information of from described storer, user can being selected via network when enabling virtual same time-space motion system 100 at every turn.Selectively, when local storage on the mobile device that described storer is user side, described storer only can store movable information and the identification information of the user using this mobile device, and also can obtain the movable information of more users from the device of other users or server, for virtual same time-space motion.

The detailed operation of data acquisition module 110 is described in detail hereinafter with reference to Fig. 2.

Fig. 2 illustrates the structure of the data acquisition module 110 of the virtual same time-space motion system 100 according to the embodiment of the present invention.As shown in Figure 2, according to embodiments of the invention, data acquisition module 110 can comprise geographic position acquisition module 201, motion capture module 202 and timing module 203.

Timing module 203 can determine to the motion timing of user the data obtaining time point obtaining exercise data and geographic position.Geographic position acquisition module 201 is used in the geographic position being obtained user by timing module 203 established data acquisition time point.Geographic position acquisition module 201 can obtain information (such as, the longitude of user's current location and latitude) about user present position from the GPS of such as installing in the mobile device (GPS) module.Should be appreciated that, the present invention is not limited thereto, geographic position acquisition module 201 also can obtain the geographic position of user from any other device for obtaining geographical location information.Motion capture module 202 is used in the exercise data being obtained user by timing module 203 established data acquisition time point.The exercise data obtained at each data obtaining time point can comprise: at motion duration to current data acquisition time point of the instant movement velocity of each data obtaining time point, time point from motion and move distance etc.

Below describe the process that data acquisition module 110 obtains exercise data and geographic position in detail.At each data obtaining time point that timing module 203 is determined, first geographic position acquisition module 201 can obtain the current geographic position of user and the current geographic position of acquisition is sent to motion capture module 202.Motion capture module 202 is by using the current geographic position received and the geographic position obtained at last data acquisition time point, calculate user from last data obtaining time point to the move distance in the interval during this period of time of current data acquisition time point, and obtain the move distance of the time point of user from moving to current data acquisition time point by the move distance in the described time interval and the move distance phase Calais of playing from motion sart point in time till described last data acquisition time point.In addition, also by by the time span of the move distance within the described time interval divided by the described time interval, the average movement velocity of user within the described time interval is obtained.Because the time interval is less, the average velocity obtained is more close to the instant movement velocity of user, consider in the present invention for obtain user movement data data obtaining time point between the time interval usually less, the instant movement velocity that therefore can will be considered as from last data obtaining time point to the average velocity in current data acquisition time point at current data acquisition time point in the present invention.Should be appreciated that, exercise data and the acquisition methods thereof of user are not limited thereto, and various method also can be used as required to obtain any other exercise data.

According to the present invention, timing module 203 can with Fixed Time Interval (namely, each exercise data time point for the exercise data and geographic position obtaining user periodically) is set, or, can also determine adaptively obtaining the exercise data of user and the exercise data time point in geographic position according to the motion conditions of user.Such as, can determine obtaining the exercise data of user and next data obtaining time point in geographic position in the instant movement velocity of current data acquisition time point according to user, make when the movement velocity of user is slower, exercise data and the geographic position of user is obtained with the longer time interval, when the movement velocity of user is very fast, obtain exercise data and the geographic position of user with the shorter time interval, thus exercise data and geographic position more accurately can be obtained.

At the end of motion, obtain the average movement velocity of user in this motion by total motion duration of obtaining from timing module 203 with by total move distance that motion capture module 202 calculates.In addition, also easily obtain the moving line of user's this motion in the geographic position that each data obtaining time point obtains by geographic position acquisition module 201.

After user movement terminates, user by data acquisition module 110 for this motion create about this motion movable information and the movable information of establishment is stored in storer (not shown).It is one or more that described movable information can comprise in type of sports of this motion of user, sports center, moving line, average movement velocity, total motion duration, total move distance, and also can be included in the exercise data etc. that each data obtaining time point obtains.Should be appreciated that, user also can not create and not store the movable information about this motion.

The operation of map adaptation module 120 and fantasy sport module 130 in virtual same time-space motion is described in detail in hereinafter with reference to Fig. 3 to Fig. 6 C.

Fig. 3 is the block diagram of the map adaptation module 120 that virtual same time-space motion system 100 is according to an embodiment of the invention shown.Fig. 4 is the schematic diagram illustrating that map loads and shows.

With reference to Fig. 3, map adaptation module 120 can comprise direction adaptation module 301, visual angle adaptation module 302 and map load-on module 303.

Map load-on module 303 can be used for loading from map server (not shown) the map mated with the current geographic position of user, and described in the display screen display of mobile device map.Whether the direction of motion that direction adaptation module 301 can be used for detecting user changes, and when the direction of motion of user changes, produces direction control signal, and the direction control signal of generation is sent to map load-on module 303 to change the display direction of map.Visual angle adaptation module 302 can be used for detecting map and checks whether visual angle is changed, when user change map check visual angle time, produce viewing angle control signal, and the viewing angle control signal of generation is sent to map load-on module 303 with what change map and checks visual angle (that is, by described map denotation to the visual angle of user).

After map load-on module 303 loads and shows map, map load-on module 303 can change the display direction of map according to the direction control signal received from direction adaptation module 301, and changes map denotation to the visual angle of user according to the viewing angle control signal received from visual angle adaptation module 302.The detailed operation of map adaptation module 120 is described in detail hereinafter with reference to Fig. 3, Fig. 4 A and Fig. 4 B.

After user enables virtual same time-space motion system 100, the current geographic position of the user that map load-on module 303 can obtain according to data acquisition module 110 (namely, the geographic position that data acquisition module 110 obtains at nearest data obtaining time point) with predetermined time interval from providing the map vendors of map (such as, map server) obtain the map in the preset range that mates with described current geographic position and show this map, as shown in Figure 4 A.Should be appreciated that, described predetermined time interval can be default Fixed Time Interval, or described predetermined time interval can synchronous with data obtaining time point (that is, just loading corresponding map according to this geographic position) after the geographic position obtaining user at every turn.In addition, described preset range can be fixing scope, also can be the scope that changes adaptively according to conditions such as user velocity (such as, when user movement speed, map in a big way can be shown, when user movement speed is slower, map more among a small circle can be shown, if this is because the movement velocity of user is very fast, then when the body of a map or chart shown is too small, likely before the map of display is refreshed, user has just run out of this scope, makes to show mistake).

After map is loaded into display shows, user adjusts by visual angle adaptation module 302 visual angle that map shows over the display, thus obtains the better display view angle of user, as shown in Figure 4 B.After visual angle adaptation module 302 detects the visual angle adjustment action that user makes (such as, when using touch-screen, the touch of user on map and drag motions), produce the viewing angle control signal comprised about adjustment information, and the viewing angle control signal of generation is sent to map load-on module 303.When map load-on module 303 receives viewing angle control signal, map load-on module 303 adjusts according to the display view angle of adjustment information to the map of current display comprised in the viewing angle control signal received and refreshes map denotation.In addition, at use virtual image (such as, 2D or 3D virtual image) when representing user and the identification information by challenger on map, when adjusting the display view angle of map, also need correspondingly to adjust user and by the visual angle of the virtual image of challenger.The method at adjustment map denotation visual angle is known for a person skilled in the art, therefore will not be described in detail at this.

In addition, in the process of user movement, user often may adjust the direction of motion.Such as, when user runs to crossroad, user may turn round.In this case, due to original streetscape map normally according to the original direction of motion display of user, therefore need to adjust the display direction of map.In the present invention, direction adaptation module 301 can be used for the change detecting user movement direction, and such as, the direction sensor that direction adaptation module 301 can change from identifiable design user movement direction receives the information changed about user movement direction.When detecting that the direction of motion of user changes, direction adaptation module 301 produces the direction control signal comprised about direction adjustment information, and the direction control signal of generation is sent to map load-on module 303.When map load-on module 303 receives direction control signal, map load-on module 303 changes the display direction of map according to the direction adjustment information comprised in the direction control signal received and refreshes map denotation, thus makes the moving line of user in the map that display shows can be direction along user movement all the time.The method in adjustment map denotation direction is known for a person skilled in the art, therefore will not be described in detail at this.

Hereinafter, composition graphs 5 and Fig. 6 A to Fig. 6 C are described in detail how on the streetscape map of display, to realize the effect of simulation with spatiotemporal motion.

Fig. 5 is the block diagram of the structure of the fantasy sport module 130 that virtual same time-space motion system 100 is according to an embodiment of the invention shown.Fig. 6 A to Fig. 6 C is the design sketch that the virtual same time-space motion shown over the display is shown.

With reference to Fig. 5, fantasy sport module 130 according to the present invention comprises: loading position adaptation module 501, loading velocity adaptation module 502 and image load-on module 503.

Loading position adaptation module 501 can be used for that the geographic position of user that obtains according to data acquisition module 110 and exercise data and pattern arrange that module 140 obtains by the movable information of challenger, determine user and by the display position of the identification information of challenger on map.Loading velocity adaptation module 502 can be used for being arranged on and map upgrades user and by the renewal frequency of the display position of the identification information of challenger.Image load-on module 503 is used in the user that determined by loading position adaptation module 501 and the display position of the identification information of challenger is shown respectively the identification information of user and by the identification information of challenger, and according to the renewal frequency that loading velocity adaptation module 502 is determined upgrade user identification information and by the display position of the identification information of challenger on map.

Specifically, first loading position adaptation module 501 according to the current geographic position of the user obtained by data acquisition module 110, can determine the display position of the identification information of user on map.After the display position of identification information determining user, loading position adaptation module 501 can according to obtained by data acquisition module 110 current geographic position of user and exercise data and by pattern arrange that module 140 obtains by the movable information of challenger, calculate by the current geographic position of challenger (namely, virtual should be present by challenger geographic position), and according to being determined by the display position of the identification information of challenger on map by the current geographic position of challenger of calculating.Determine user and by the display position of the identification information of challenger after, image load-on module 504 is the user determined and the display position of challenger is shown respectively the identification information of user and by the identification information of challenger.Conveniently explain, the virtual image using user oneself to arrange in the following example represents the identification information of this user.

Such as, suppose that the move distance that user has moved is S at time point t (that is, the current motion duration t moved of user) _u.Loading position adaptation module 501 can utilize by the range difference Δ S when the instant movement velocity of each data obtaining time point to calculate by challenger at time point t and between user in the movable information of challenger, to obtain by the display position of challenger.Such as, for by challenger, before supposing time point t, have recorded n data obtaining time point t ₁, t ₂..., t _n, and be respectively v in the instant movement velocity of the record of each data obtaining time point ₁, v ₂..., v _n, can by data obtaining time point t _nwith t _n+1(that is, data obtaining time point t _nnext data obtaining time point afterwards) in be defined as the instant movement velocity v of time point t apart from the instant movement velocity of the nearer time point of t _t(if there is no t _n+1, then can by the instant movement velocity v of time point t _tbe defined as v _n), then can be approximately S=t by the move distance S of challenger ₁× v ₁+ (t ₂-t ₁) × v ₂+ ...+(t _n-t _n-1) × v _n+ (t-t _n) × v _t, thus user can be calculated and by the range difference Δ S=|S-S between challenger _u|.

After calculating above-mentioned range difference, if the move distance S of user _ube greater than by the move distance S of challenger, then represent that user leads over by challenger, therefore the position at the current geographic position Δ S place of direction at user rear apart from user along user movement can be defined as by the current geographic position of challenger, thus demonstrate effect as shown in Figure 6A.If the move distance S of user _uequal by the move distance S of challenger, then represent that user is synchronous with by challenger, therefore the current geographic position of user can be defined as by the current geographic position of challenger, thus demonstrate effect as shown in Figure 6B.If the move distance S of user _ube less than by the move distance S of challenger, then represent that user lags behind by challenger, therefore the position at the current geographic position Δ S place of direction in user front apart from user along user movement can be defined as by the current geographic position of challenger, thus demonstrate effect as shown in Figure 6 C.

But, determine to be not limited thereto by the method for the display position of challenger, such as, also can simply by the move distance S=t × v obtaining and should have been moved when having moved duration t by challenger that to be multiplied with described time t by the average movement velocity v of challenger that will obtain, and by this move distance S and the current distance S moved of user _ucompare to calculate range difference Δ S=|S-S _u|.In addition, if also comprised in the movable information of challenger by the move distance S of challenger when motion duration t, then the move distance S of this move distance S and user can directly be used _ucalculate user and by the range difference Δ S between challenger, to obtain by the display position of challenger.Selectively, as another example, if determine moving line before user movement, and have selected once same another user moved on this moving line as by challenger, then can directly by obtain by the movable information of challenger comprise be defined as by the current geographic position of challenger in the geographic position of above-mentioned time point t by challenger.Can simulate more really by the motion conditions of challenger like this.Should be appreciated that, if use the modes such as above-mentioned instant movement velocity, moving line, move distance to determine by the display position of the identification information of challenger, then when the motion duration of user exceedes the recorded total motion duration by challenger, the virtual same time-space motion under challenge pattern can be stopped.

Loading velocity adaptation module 502 can be arranged on and map upgrade for loading user and by the renewal frequency of the display position of the identification information of challenger, thus the renewal frequency that can determine according to loading velocity adaptation module 502 of image load-on module 503 upgrade user identification information and by the display position of the identification information of challenger on map, to realize the effect of moving.

In the present invention, loading velocity adaptation module 502 can be determined obtaining the exercise data of user and each data obtaining time point in geographic position to upgrade the identification information and by the display position of the identification information of challenger (namely of user, just upgrade after the exercise data at every turn getting user and geographical location information user identification information and by the display position on map of the identification information of challenger), or with predefined Fixed Time Interval upgrade user identification information and by the display position of the identification information of challenger.Selectively, loading velocity adaptation module 502 also can arrange according to the instant movement velocity of user and upgrade user and by the identification information of challenger (such as, virtual image) frequency (or upgrade can be determined by by the instant movement velocity of challenger or average movement velocity by the frequency of the identification information of challenger (such as, the virtual image) display position on map) of display position on map.Upgrade user by above method and by the display position of the identification information of challenger, can easily embody following effect: to show user and by the virtual image of challenger, when user is static, virtual image can also keep static on map; When accelerating in the process of user in actual motion, the animation of virtual image also can embody acceleration; When slowing down in the process of user in actual motion, the animation of virtual image also can embody deceleration; When in the motion process of user in reality during uniform motion, the animation of virtual image can also remain a constant speed.In addition, when user changes direction in motion way, because the display position of the virtual image of user can be updated, and the display position of the direction of motion of user and the virtual image of user is always depended on by the display position of the virtual image of challenger, therefore can easily realize when user changes direction of motion, user and the virtual image by challenger change direction of motion similarly.Such as, when user changes direction left in actual motion, user and the animation by the virtual image of challenger also change direction left; When user changes direction to the right in actual motion, user and the animation by the virtual image of challenger also change direction to the right.

In this way, user and in fact current and non-existent effect of being carried out virtual same time-space motion by challenger can vivo be shown.Should be appreciated that, in the present invention, described map is not limited to streetscape map, such as, can replace streetscape map with existing general map, in this case, can omit visual angle adaptation module 302.And user and can be picture, photo etc. or even 3-D view by the identification information of challenger, and can by user preset.In addition, user also can select multiple by challenger to carry out virtual same time-space motion, and be not limited to one by challenger.

Fig. 7 illustrates to use virtual same time-space motion system 100 according to an embodiment of the invention to carry out the process flow diagram of the method for virtual same time-space motion.The method using virtual same time-space motion system 100 of the present invention to carry out virtual sports is described in detail hereinafter with reference to Fig. 7.

With reference to Fig. 7, in step 701, user arranges module 140 by pattern and is arranged on the identification information (such as, virtual image) will used in this virtual same time-space motion.But, should be appreciated that, the present invention is not limited thereto, the identification information of user also can be set any time after selecting challenge pattern and before user's setting in motion.

Then in step 703, module 140 is set by pattern and determines whether user have selected challenge pattern.When determining that user have selected challenge pattern in step 703, in step 705, user arranges module 140 by pattern and selects by challenger and obtain by the identification information of challenger and movable information.In the present invention, user can according to type of sports (such as, by bike, running etc.) or according to sports center (such as, mountain region, level land etc.) select suitable for challenger, the moving line that even user can estimate according to oneself user that selects once to carry out on this route similar motion as by challenger, thus obtains result of racing more really.In addition, can also be user itself by challenger, that is, user can utilize oneself motion history data once to realize virtual same time-space motion.To be arranged after module 140 have selected by challenger by pattern user, what pattern arranged that module 140 identifiable design user selects is obtained by the identification information of challenger and movable information by challenger.If about be have recorded the movable information repeatedly moved by challenger, then user therefrom can select the movable information that once moves.

In step 707, after user starts to carry out virtual same time-space motion, obtain exercise data (such as, instant movement velocity, the motion duration moved, the move distance etc. that moves) and the geographic position of user by data acquisition module 110.Specifically, in step 707, the data obtaining time point obtaining exercise data and geographic position can be determined by the motion timing of the timing module 203 couples of users in data acquisition module 110, then can be obtained the geographic position of user by the geographic position acquisition module 201 in data acquisition module 110 at established data acquisition time point, and be obtained the exercise data of user by the motion capture module 202 in data acquisition module 110 at established data acquisition time point.Composition graphs 2 is described in detail and is obtained the exercise data of user and the method in geographic position, therefore no longer will carry out repeated description at this.

Then in step 709, load by map adaptation module 120 and show the map matched with the current geographic position of user, wherein, the geographic position of the current geographic position of the user user that to be data acquisition module 110 obtain at nearest data obtaining time point.

In embodiments of the present invention, whether the map load-on module 303 that can be comprised by map adaptation module 120 in step 709 obtains from map server (not shown) the map that matches with the current geographic position of user and shows described map, and change by the direction of motion that the direction adaptation module 301 that map adaptation module 120 comprises detects user and detect map by the visual angle adaptation module 302 that map adaptation module 120 comprises and check whether visual angle is changed.When the direction of motion of user changes, direction adaptation module 301 can produce direction control signal and described direction control signal is sent to map load-on module 303, thus map load-on module 303 changes the display direction of map according to the direction control signal produced; When map checks that visual angle changes, visual angle adaptation module 302 can produce viewing angle control signal and described viewing angle control signal is sent to map load-on module 303, thus map load-on module 303 changes described map denotation to the visual angle of user according to the viewing angle control signal produced.

In step 711, by fantasy sport module 130 determine user with by the display position of the identification information of challenger on map, and show respectively on the display position determined user with by the identification information of challenger.Specifically, in step 711, the geographic position of user that the loading position adaptation module 501 that fantasy sport module 130 comprises can obtain according to data acquisition module 110 and exercise data and pattern arrange that module 140 obtains by the movable information of challenger, determine user and by the display position of the identification information of challenger on map, and be arranged on by the loading velocity adaptation module 502 that fantasy sport module 130 comprises and map upgrade user and by the renewal frequency of the display position of the identification information of challenger.Then, the user that the image load-on module 503 that fantasy sport module 130 comprises can be determined in loading position the adaptation module 501 and display position of the identification information of challenger is shown respectively the identification information of user and by the identification information of challenger, and according to the renewal frequency that loading velocity adaptation module 502 is arranged upgrade user identification information and by the display position of the identification information of challenger on map.Composition graphs 1 to Fig. 6 describes the method for loading map in detail and on map, shows user and by the method for the identification information of challenger, be therefore no longer described in greater detail at this.

According to the present invention, at the end of user movement does not also have after step 711, step 707 can be repeated to 711, thus can along with user movement, upgrade the map and user and by the display position of the virtual image of challenger on map that load, to realize the effect of virtual same time-space motion.

If do not select challenge pattern in step 703 user, then can directly carry out step 707 to 711, compared with the step 707 under challenge pattern to 711, difference is only the identification information only showing user in step 711 on map, or or even do not carry out any display (namely only performing the motion capture process of step 707), in this case, virtual same time-space motion system 100 can be utilized to realize this Data Collection moved of user, management and storage.In addition, should be appreciated that, if do not select challenge pattern in step 703 user, can also directly exit virtual same time-space motion system 100.

Although specifically show with reference to its exemplary embodiment and describe the present invention, but it should be appreciated by those skilled in the art, when not departing from the spirit and scope of the present invention that claim limits, the various changes in form and details can be carried out to it.

Claims (12)

1. a virtual same time-space motion system, described system comprises:

Pattern arranges module, for arranging the identification information of user, and determine that virtual same time-space motion system is set to challenge pattern or is set to non-challenge pattern, when virtual same time-space motion system is set to challenge pattern, identify by user select by challenger and obtain by the identification information of challenger and movable information; When virtual same time-space motion system is set to non-challenge pattern, fantasy sport module only determines the display position of the identification information of user on map, and on the display position determined, show the identification information of user;

Data acquisition module, for obtaining exercise data and the geographic position of user;

Map adaptation module, for loading and showing the map matched with the current geographic position of user, the geographic position of the current geographic position of the user user that to be data acquisition module obtain at nearest data obtaining time point;

Fantasy sport module, when virtual same time-space motion system is set to challenge pattern, determine user with by the display position of the identification information of challenger on map, and show respectively on the display position determined user with by the identification information of challenger;

Wherein, described fantasy sport module comprises:

Loading position adaptation module, for the current geographic position of user that obtains according to data acquisition module and exercise data and pattern arrange that module obtains by the movable information of challenger, determine user and by the display position of the identification information of challenger on map;

Loading velocity adaptation module, map upgrades user and by the renewal frequency of the display position of the identification information of challenger for being arranged on;

Image load-on module, for the user determined by loading position adaptation module with the display position of the identification information of challenger is shown respectively the identification information of user and by the identification information of challenger, and according to the renewal frequency that loading velocity adaptation module is determined upgrade user identification information and by the display position of the identification information of challenger on map.

2. the system as claimed in claim 1, wherein, described data acquisition module comprises:

Timing module, determines to the motion timing of user the data obtaining time point obtaining exercise data and geographic position;

Geographic position acquisition module, for obtaining the geographic position of user by timing module established data acquisition time point;

Motion capture module, for obtaining the exercise data of user by timing module established data acquisition time point.

3. the system as claimed in claim 1, wherein, described map adaptation module comprises:

Map load-on module, for obtaining the map that mates with the current geographic position of user and showing described map from map server;

Whether direction adaptation module, change for the direction of motion detecting user, when the direction of motion of user changes, produces direction control signal and direction control signal is sent to map load-on module;

For detecting map, visual angle adaptation module, checks whether visual angle is changed, when map checks that visual angle changes, produce viewing angle control signal and viewing angle control signal is sent to map load-on module;

Wherein, after map load-on module loads and shows map, map load-on module changes the display direction of described map according to the direction control signal received from direction adaptation module, and changes described map denotation to the visual angle of user according to the viewing angle control signal received from visual angle adaptation module.

4. the system as described in any one in claims 1 to 3, wherein, described movable information comprises the exercise datas that are one or more and that obtain at each data obtaining time point in type of sports when user moves at every turn, sports center, moving line, average movement velocity, total motion duration, total move distance

Wherein, the exercise data obtained at each data obtaining time point comprises: at motion duration to current data acquisition time point of the instant movement velocity of each data obtaining time point, time point from motion and move distance,

Wherein, described moving line is represented by the geographic position obtained at each data obtaining time point.

5. the system as claimed in claim 1, wherein, described map is streetscape map.

6. system as claimed in claim 2, wherein, described timing module determines obtaining the exercise data of user and next data obtaining time point in geographic position at the exercise data of current data acquisition time point according to user, or described timing module arranges each data obtaining time point with Fixed Time Interval.

7. a virtual same time-space motion method, described method comprises:

A) identification information of user is set;

B) determining whether to select challenge pattern, when have selected challenge pattern, identifying being obtained by the identification information of challenger and movable information by challenger of being selected by user;

C) exercise data and the geographic position of user is obtained;

D) load and show the map matched with the current geographic position of user, wherein, the current geographic position of user is the geographic position of the user in the acquisition of nearest data obtaining time point;

E) determine user with by the display position of the identification information of challenger on map, and show respectively on the display position determined user with by the identification information of challenger;

Wherein, when have selected non-challenge pattern, step e) comprising:

Only determine the display position of the identification information of user on map, and on the display position determined, show the identification information of user;

Wherein, step e) comprising:

E1) according to the current geographic position of user and exercise data and acquisition by the movable information of challenger, determine user and by the display position of the identification information of challenger on map;

E2) be arranged on and map upgrade user and by the renewal frequency of the display position of the identification information of challenger;

E3) the user determined with the display position of the identification information of challenger is shown respectively the identification information of user and by the identification information of challenger, and according to the renewal frequency arranged upgrade user identification information and by the display position of the identification information of challenger on map.

8. method as claimed in claim 7, wherein, step c) comprising:

C1) the data obtaining time point obtaining exercise data and geographic position determines to the motion timing of user;

C2) obtain the geographic position of user at established data acquisition time point, and obtain the exercise data of user at established data acquisition time point.

9. method as claimed in claim 7, wherein, steps d) comprising:

D1) obtain from map server the map that mates with the current geographic position of user and show described map;

Whether the direction of motion d2) detecting user changes, and when the direction of motion of user changes, produces direction control signal and sends described direction control signal;

D3) detect map and check whether visual angle is changed, when map checks that visual angle changes, produce viewing angle control signal and send described viewing angle control signal;

Wherein, after map is loaded and shows, according to the display direction changing described map from described direction control signal, and change described map denotation to the visual angle of user according to described viewing angle control signal.

10. the method as described in any one in claim 7 to 9, wherein, described movable information comprises the exercise datas that are one or more and that obtain at each data obtaining time point in type of sports when user moves at every turn, sports center, moving line, average movement velocity, total motion duration, total move distance

Wherein, the exercise data obtained at each data obtaining time point comprises: motion duration to current data acquisition time point of the instant movement velocity of each data obtaining time point, the time point from motion and move distance,

Wherein, described moving line is represented by the geographic position obtained at each data obtaining time point.

11. methods as claimed in claim 7, wherein, described map is streetscape map.

12. methods as claimed in claim 8, wherein, determine obtaining the exercise data of user and next data obtaining time point in geographic position at the exercise data of current data acquisition time point according to user, or each data obtaining time point is set with Fixed Time Interval.