CN112313650A - User right defining method, mobile terminal and computer readable storage medium - Google Patents

Abstract

A user right defining method, a mobile terminal (10) and a non-volatile computer-readable storage medium (30). The user authority defining method comprises the following steps: determining an overall length value of a user from usage behavior of the user using the drone (20); determining the user grade of the user according to the total length value; and determining the authority of the user according to the user level, wherein the authority is increased along with the increase of the user level.

Description

User right defining method, mobile terminal and computer readable storage medium

Technical Field

The application relates to the technical field of unmanned aerial vehicles, in particular to a user permission defining method, a mobile terminal and a nonvolatile computer readable storage medium.

Background

At present, the application functions of the unmanned aerial vehicle are limited to meet the requirements of flying, shooting, clipping and the like, but the promotion effect of the functions on the use of the unmanned aerial vehicle is limited. According to data statistics, the cumulative flight time of a user's drone of about 1/5 in a month does not exceed 10 minutes. The number of times that the user used unmanned aerial vehicle and the condition that the time is all less are unfavorable for promoting the user and control unmanned aerial vehicle's technical ability, and the user also can not explore unmanned aerial vehicle's function, so probably cause the reduction of user's viscosity.

Disclosure of Invention

The embodiment of the application provides a user permission defining method, a mobile terminal and a nonvolatile computer readable storage medium.

The user authority defining method of the embodiment of the application comprises the following steps: determining an overall length value of a user using an unmanned aerial vehicle according to the usage behavior of the user; determining the user grade of the user according to the assembly length value; and determining the authority of the user according to the user level, wherein the authority increases along with the increase of the user level, and the authority is higher, and the authority comprises at least one of the use authority of the user for using the unmanned aerial vehicle and the interaction authority of the user and other users for using the unmanned aerial vehicle.

The mobile terminal of this application embodiment and unmanned aerial vehicle communication. The mobile terminal includes a processor. The processor is configured to: determining an overall length value of a user using the unmanned aerial vehicle according to usage behaviors of the user; determining the user grade of the user according to the assembly length value; and determining the authority of the user according to the user level, wherein the authority increases along with the increase of the user level, and the authority comprises at least one of the use authority of the user for using the unmanned aerial vehicle and the interaction authority of the user for interacting with other users for using the unmanned aerial vehicle.

The non-transitory computer-readable storage medium of the embodiments of the present application includes computer-readable instructions, which, when executed by a processor, cause the processor to perform the user right defining method described above.

According to the user permission defining method, the mobile terminal and the nonvolatile computer readable storage medium, the grade of the user is determined by quantifying the behavior of the user using the unmanned aerial vehicle, and the permission of the user is determined according to the grade of the user, so that the user can be stimulated to use the unmanned aerial vehicle more frequently for obtaining higher grade and permission, the enthusiasm of the user using the unmanned aerial vehicle is improved, the viscosity of the user is improved, and meanwhile, the skill of the user for controlling the unmanned aerial vehicle can be improved; meanwhile, permission limitation is set for users with fewer use times or use frequencies, and accidents of the unmanned aerial vehicle can be effectively avoided.

Additional aspects and advantages of embodiments of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic flow chart diagram of a user rights definition method according to some embodiments of the present application;

fig. 2 is a schematic diagram of interaction between a drone and a mobile terminal according to some embodiments of the present application;

FIG. 3 is a schematic diagram of a scenario of a user right defining method according to some embodiments of the present application;

FIG. 4 is a schematic flow chart diagram illustrating a user right defining method according to some embodiments of the present application;

FIG. 5 is a flow chart illustrating a user rights definition method according to some embodiments of the present application;

FIG. 6 is a flow chart illustrating a user rights definition method according to some embodiments of the present application;

FIG. 7 is a graph of the change in overall growth value for certain embodiments of the present application;

FIG. 8 is a user level profile for certain embodiments of the present application;

FIG. 9 is a graph of user number ratios for user rank intervals in accordance with certain embodiments of the present application;

FIG. 10 is a schematic flow chart diagram illustrating a user rights definition method according to some embodiments of the present application;

FIG. 11 is a schematic diagram illustrating a scenario of a user right defining method according to some embodiments of the present application;

FIG. 12 is a schematic flow chart diagram illustrating a user rights definition method according to some embodiments of the present application;

FIG. 13 is a schematic diagram illustrating a scenario of a user right defining method according to some embodiments of the present application;

FIG. 14 is a schematic diagram of the interaction of a non-volatile computer readable storage medium and a processor of certain embodiments of the present application.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative and are only for the purpose of explaining the present application and are not to be construed as limiting the present application.

Referring to fig. 1, the present application provides a method for defining user rights. The user authority defining method comprises the following steps:

01: determining an overall length value of the user from usage behavior of the user using the drone 20;

02: determining the user grade of the user according to the total length value; and

03: and determining the authority of the user according to the user level, wherein the authority is increased along with the increase of the user level, and the authority comprises at least one of the use authority of the user for using the unmanned aerial vehicle 20 and the interaction authority of the user for interacting with other users for using the unmanned aerial vehicle.

Referring to fig. 2, the present application further provides a mobile terminal 10. The mobile terminal 10 may communicate with the drone 20. The user right defining method according to the embodiment of the present application may be implemented by the mobile terminal 10 according to the embodiment of the present application. In particular, the mobile terminal 10 includes a processor 11. Step 01, step 02, and step 03 may be implemented by the processor 11. That is, the processor 11 may be configured to determine a total length value of the user according to the usage behavior of the user using the drone 20, determine a user class to which the user belongs according to the total length value, and determine the authority of the user according to the user class. Wherein, the authority includes at least one of the use authority of the user using the drone 20 and the interaction authority of the user interacting with other users using the drone 20, and the authority increases with the increase of the user level.

The mobile terminal 10 may be a remote controller, a mobile phone, a tablet computer, a smart watch, a smart bracelet, smart glasses, etc., without limitation.

The usage behavior includes at least one of an accumulated flight time of the user flying using the unmanned aerial vehicle 20, an accumulated flight mileage of the user flying using the unmanned aerial vehicle 20, a city number of the user flying using the unmanned aerial vehicle 20, an accumulated photographing time of the user flying using the unmanned aerial vehicle 20, an accumulated video recording time of the user flying using the unmanned aerial vehicle 20, an accumulated using time of the user flying using the unmanned aerial vehicle 20, a number of times the user edits a file acquired by the unmanned aerial vehicle 20, a number of times the user shares the file acquired by the unmanned aerial vehicle 20, a degree of perfection of personal information of the user, and a number of praise of the user sharing a file harvest acquired by the unmanned aerial vehicle 20. Wherein, the user uses the duration of the accumulative flight of unmanned aerial vehicle 20 flight to mean that the user controls the duration of the accumulative flight of unmanned aerial vehicle 20 in the process of unmanned aerial vehicle 20 flight. The accumulated flying mileage of the user flying by using the drone 20 refers to the accumulated flying mileage of the drone 20 during the process of the user controlling the drone 20 to fly. The number of cities that the user has flown cumulatively using the drone 20 flight refers to the number of cities in which the user has handled the drone 20 to fly. The user uses the long in-process accumulative video recording of unmanned aerial vehicle 20 flight to indicate that the user controls the in-process that unmanned aerial vehicle 20 flies, and the camera video recording that control unmanned aerial vehicle 20 carried on, the camera accumulative video recording is long. The user uses the accumulative total number of times of use of unmanned aerial vehicle 20 in-process intelligence shooting function to refer to the in-process that the user controlled unmanned aerial vehicle 20 to fly, the camera that control unmanned aerial vehicle 20 and unmanned aerial vehicle 20 carried on works under the intelligence shooting function, the number of times of use of the intelligent shooting function of unmanned aerial vehicle 20 accumulations, wherein, the intelligence shooting function is for example a key short film, under a key short film mode, unmanned aerial vehicle 20 can fly with predetermined flight path, the camera can be shot with predetermined shooting parameter. The number of times that the user edits the file acquired by the drone 20 refers to the number of times that the user edits the file acquired by the drone 20 using the template to generate a new file, wherein the file acquired by the drone 20 includes at least one of a picture taken by the drone 20, a video recorded by the drone 20, and a flight trajectory recorded by the drone 20. The number of times that the user shares the file acquired by the drone 20 refers to the number of times that the user shares the file (such as a picture, a video, a flight trajectory, etc.) acquired by the drone 20 to another person. As shown in fig. 3, the completeness of the personal information of the user refers to the completeness of the personal information such as nickname, head portrait, region, age, and sex of the user. The praise number of the file harvest obtained by the user sharing unmanned aerial vehicle 20 means that after the user shares the file obtained by the unmanned aerial vehicle 20 to a dynamic circle, other users browse the file shared by the user and execute praise operation, and the praise number of the file harvest by the user.

In some embodiments, the usage behavior may include only any of the above-described usage behaviors. For example, the usage behavior may include only the cumulative length of flight for the user using the drone 20; alternatively, the usage behavior may include only the accumulated mileage that the user is flying using the drone 20; alternatively, the usage behavior may include only the number of cities the user is traveling cumulatively with the flight of the drone 20; or the usage behavior may include only the cumulative number of photographs taken during the flight of the user using the drone 20; alternatively, the usage behavior may include only the number of times the user edited the file acquired by the drone 20, and so on.

In other embodiments, the usage behavior may include both of any of the above usage behaviors. For example, the usage behavior may include both the accumulated flight time of the user using the drone 20 and the accumulated flight mileage of the user using the drone 20; or, the usage behavior may include both the cumulative number of times of photographing during the flight of the user using the drone 20 and the cumulative length of video recording during the flight of the user using the drone 20; alternatively, the user usage behavior may include the number of times that the user edits the file acquired by the drone 20, the number of times that the user shares the file acquired by the drone 20, and the like.

In still other embodiments, the usage behavior may include any three of the above usage behaviors simultaneously. For example, the usage behavior may include the cumulative flight duration of the user using drone 20 to fly, the cumulative flight mileage of the user using drone 20 to fly, and the cumulative number of cities the user has flown using drone 20 to fly; or, the usage behavior may include the accumulated video recording duration of the user in the process of using the drone 20 to fly, the accumulated usage times of the smart shooting function of the user in the process of using the drone 20 to fly, the times of editing the file acquired by the drone 20 by the user, and the like.

In still other embodiments, the usage behavior may include any six of the above usage behaviors simultaneously. For example, the usage behavior may include the accumulated flight duration of the user using the drone 20 for flight, the accumulated flight mileage of the user using the drone 20 for flight, the city number of the user using the drone 20 for flight, the accumulated photographing times of the user using the drone 20 for flight, the accumulated using times of the smart photographing function of the user using the drone 20 for flight, the editing times of the files acquired by the drone 20 by the user, and the like.

In still other embodiments, the usage behavior may include the ten usage behaviors described above simultaneously. The behavior utilization includes the accumulated flight time of the user using the unmanned aerial vehicle 20 for flight, the accumulated flight mileage of the user using the unmanned aerial vehicle 20 for flight, the city number of the user using the unmanned aerial vehicle 20 for flight accumulated flight, the accumulated photographing times of the user using the unmanned aerial vehicle 20 for flight, the accumulated video recording time of the user using the unmanned aerial vehicle 20 for flight, the accumulated using times of the intelligent photographing function of the user using the unmanned aerial vehicle 20 for flight, the times of the user editing the files acquired by the unmanned aerial vehicle 20, the times of the user sharing the files acquired by the unmanned aerial vehicle 20, the perfection degree of the personal information of the user, and the praise number of the user sharing the file harvest acquired by the unmanned aerial vehicle 20.

A user may own one or more drones 20. When the user owns one unmanned aerial vehicle 20, the user is associated with (i.e., bound to) the one unmanned aerial vehicle 20, and the usage behavior of the user is the usage behavior of the user using the one unmanned aerial vehicle 20. When this user owns many unmanned aerial vehicles 20, this user is associated with many unmanned aerial vehicles 20, and user's the use behavior is the sum of this user's use behavior of using these many unmanned aerial vehicles 20 this moment.

The user's right includes at least one representation of a usage right and an interaction right: (1) the rights include only usage rights; (2) the rights include only interaction rights; (3) the permission includes both the usage permission and the interaction permission.

Wherein, the usage right includes at least one of the flying speed of the unmanned aerial vehicle 20, the flying area of the unmanned aerial vehicle 20, and the flying time of the unmanned aerial vehicle 20. For example, the usage rights may include only any one of the flight speed of the drone 20, the flight area of the drone 20, the flight time of the drone 20; or, the usage right may include both the flight speed of the drone 20 and the flight area of the drone 20; alternatively, the usage rights may include three types of the flying speed of the drone 20, the flying area of the drone 20, and the flying time of the drone 20 at the same time.

The interactive permission comprises at least one of files acquired by other users by using the unmanned aerial vehicle, files acquired by other users by sharing the unmanned aerial vehicle, and files acquired by other users by using the unmanned aerial vehicle. For example, the interaction permission may only include any one of a user browsing a file acquired by another user using the drone, a user downloading a file acquired by another user using the drone, a user sharing a file acquired by another user using the drone, and a user using a file acquired by another user using the drone; or, the interactive permission may include both that the user browses the file acquired by the other user using the unmanned aerial vehicle and that the user downloads the file acquired by the other user using the unmanned aerial vehicle; or, the interactive permission may include four types, that is, the user browses a file acquired by another user using the unmanned aerial vehicle, the user downloads a file acquired by another user using the unmanned aerial vehicle, the user shares a file acquired by another user using the unmanned aerial vehicle, and the user uses a file acquired by another user using the unmanned aerial vehicle.

The processor 11 collects a plurality of usage behaviors of the user using the drone 20 and calculates an overall length value of the user based on the plurality of usage behaviors. Subsequently, the processor 11 determines the user level to which the user belongs according to the total length value, and then determines the authority of the user according to the user level. Wherein the higher the user level, the higher the authority of the user.

Specifically, for the usage right of the flying speed of the drone 20, the higher the rank of the user, the higher the maximum flying speed the drone 20 is allowed to fly when the user manipulates the drone 20. It can be understood that, when the user level is lower, it is higher to explain that this user is the possibility of new hand, and this user controls unmanned aerial vehicle 20's skill is weaker, needs to limit this user's unmanned aerial vehicle 20's maximum airspeed this moment to avoid taking place unmanned aerial vehicle 20 and damage, the circumstances such as crash.

For this usage right of the flight area of the drone 20, the lower the rank of users, the fewer the number of areas the drone 20 is allowed to fly when it is operating the drone 20. It can be understood that, when the user level is lower, it is higher to state that this user is the possibility of novice, and this user's skill of controlling unmanned aerial vehicle 20 is weaker, needs to restrict this user's unmanned aerial vehicle 20's flight area this moment, for example, in the area that population is comparatively dense or the terrain is comparatively complicated and serious, this user's unmanned aerial vehicle 20 is restricted the flight to avoid the emergence of the circumstances such as crowd of bruising or unmanned aerial vehicle 20 damage in the unmanned aerial vehicle 20 flight process. Wherein the flight area can be located according to GPS.

For the usage right of the flight time of the drone 20, the lower the rank of users, the more restrictive the time the drone 20 is allowed to fly when it is operating the drone 20. It can be understood that, when the user level is lower, it is higher to explain that this user is the possibility of new hand, and this user's skill is weaker in controlling unmanned aerial vehicle 20, then, in the comparatively abominable time quantum of meteorological condition such as blowing strong wind, raining, this user's unmanned aerial vehicle 20 is restricted the flight to avoid the emergence of the condition such as unmanned aerial vehicle 20 damages, crash. Wherein, mobile terminal 10 can be networked in order to learn weather information, and when weather condition that weather information instructs was comparatively abominable, mobile terminal 10 can send the signal to unmanned aerial vehicle 20 of restriction flight in a period, and unmanned aerial vehicle 20 can be restricted the flight.

For the interactive authorities of browsing, downloading, sharing and using files acquired by other users by using the unmanned aerial vehicle, the interactive authority of the user with lower grade is lower. For example, assuming that the user is ranked at three levels, the user can only browse, download, share, and use files acquired by the drone by other users at and below three levels (including the first level and the second level), but cannot browse, download, share, and use files acquired by the drone 20 by users at or above three levels. If the user level is ten, the user can browse, download, share and use files acquired by other users at ten levels and below ten levels (including nine levels, eight levels, … levels, two levels and one level) by using the unmanned aerial vehicle. The user needs to browse, download, share and use the files shared by the users at a higher level in an upgrading mode.

In summary, the user permission defining method and the mobile terminal 10 according to the embodiment of the present application determine the level of the user by quantifying the behavior of the user using the unmanned aerial vehicle 20, and determine the permission of the user according to the user level, so that the user can be stimulated to use the unmanned aerial vehicle 20 more frequently for obtaining higher levels and permissions, thereby being beneficial to improving the enthusiasm of the user in using the unmanned aerial vehicle 20, improving the user viscosity, and simultaneously improving the skill of the user in controlling the unmanned aerial vehicle 20.

In addition, the user permission defining method and the mobile terminal 10 in the embodiment of the application endow the user with lower use permission when the user is low, and the problem that the unmanned aerial vehicle 20 is damaged and crashed due to improper operation of the user with lower grade can be avoided.

Referring to fig. 4, in some embodiments, determining the total length value of the user based on the usage behavior of the user using the drone 20 in step 01 includes:

011: calculating the growth value of each using behavior to obtain a plurality of growth values respectively corresponding to the plurality of using behaviors; and

012: an aggregate growth value is calculated based on the plurality of growth values.

Referring back to fig. 2, in some embodiments, both step 011 and step 012 can be implemented by processor 11. That is, the processor 11 may be configured to calculate a growth value of each usage behavior to obtain a plurality of growth values corresponding to the plurality of usage behaviors, and calculate a total growth value according to the plurality of growth values.

Specifically, assuming that the usage behavior includes three types, i.e., the accumulated flight time of the user using the drone 20 for flight, the accumulated flight mileage of the user using the drone 20 for flight, and the city number of the user using the drone 20 for flight, the processor 11 needs to calculate the growth value S1 of the accumulated flight time of the user using the drone 20 for flight, the growth value S2 of the accumulated flight mileage of the user using the drone 20 for flight, and the growth value S3 of the city number of the user using the drone 20 for flight. Subsequently, the processor 11 calculates an overall length value S, S1+ S2+ S3 from the three length values. After the total length value S is calculated, the processor 11 may determine the user class to which the user belongs according to the total length value S, and determine the authority of the user according to the user class.

Referring to fig. 5, in some embodiments, the calculating a growth value for each usage behavior to obtain a plurality of growth values corresponding to the plurality of usage behaviors respectively in step 011 includes:

0111: acquiring historical use data, current use data and a historical growth value of the use behavior;

0112: calculating a data difference between the current usage data and the historical usage data; and

0113: and calculating the growth value of the using behavior according to the unit growth value, the historical growth value and the data difference value of the using behavior.

Referring to fig. 2, in some embodiments, step 0111, step 0112, and step 0113 can be implemented by the processor 11. That is, the processor 11 may also be configured to obtain historical usage data, current usage data, and historical growth values for usage behavior. The processor 11 may also be used to calculate a data difference between the current usage data and the historical usage data. The processor 11 may be further configured to calculate a growth value for the usage behavior based on the unit growth value, the historical growth value, and the data difference value for the usage behavior.

Specifically, taking the usage behavior of the accumulated flight time of the user using the drone 20 as an example, assuming that the historical usage data of the usage behavior is 180S (i.e., the historical accumulated flight time is 180S), the current usage data is 480S (i.e., the current accumulated flight time is 480S), the historical growth value is 360, and the unit growth value is 2, then the growth value S1 of the usage behavior is (480 × 180) 2+360 is 960.

Taking the usage behavior of the number of cities that the user uses the unmanned aerial vehicle 20 to fly and accumulate the flying, it is assumed that the historical usage data of the usage behavior is 3, the current usage data is 4, the historical growth value is 420, and the unit growth value is: (1) the number of cities is 1, the unit growth value is 60, (2) the number of cities is 2, the unit growth value is 120, (3) the number of cities is 3, the unit growth value is 240, (4) the number of cities is 4, the unit growth value is 480, and then the growth value of the usage behavior is S3 ═ 4-3 ×, 480+420 ═ 900.

Taking the usage behavior, i.e., the completeness of the personal information of the user, as an example, assuming that the historical usage data of the usage behavior is empty (i.e., the user does not fill in the personal information), the current usage data modifies the default nickname and the default avatar for the user, the historical growth value is 0, and the unit growth value is 20, then the growth value S9 of the usage behavior is 2 × 20+0 is 40, where 2 represents the number of items of the default personal information modified by the user.

In this way, the processor 11 can calculate the growth values of the various usage behaviors, thereby realizing the quantification of the usage behaviors of the user. The processor 11 may calculate an overall length value of the user according to the growth values of the plurality of usage behaviors, so as to determine the user class to which the user belongs according to the overall length value.

Table 1 is a table of correspondence between usage behavior and growth value according to an embodiment of the present application.

TABLE 1

From the data shown in table 1 it can be seen that:

different usage behaviors correspond to different unit growth values. For example, the unit growth value corresponding to the accumulated flight time of the user using the unmanned aerial vehicle 20 for flying is 2, and the unit growth value corresponding to the accumulated flight mileage of the user using the unmanned aerial vehicle 20 for flying is 1, and the unit growth values of the two use behaviors are not the same. Different unit growth values are set for different using behaviors, so that different using behaviors make different contributions to the total growth value, and weight distribution of different using behaviors is realized. Generally, the unit growth value for realizing a more difficult usage behavior is set higher. For example, the unit growth value corresponding to the number of cities that the user flies cumulatively using the drone 20 is much higher than the unit growth value corresponding to the cumulative mileage that the user flies using the drone 20. It can be understood that it is obviously more difficult to increase the number of cities flying cumulatively than to increase the cumulative mileage, and at this time, a higher unit growth value is set for the usage behavior that the user uses the unmanned aerial vehicle 20 to fly the number of cities flying cumulatively, so that the user can be stimulated to try to increase the number of cities to achieve the upgrading purpose more quickly, and the enthusiasm of the user for using the unmanned aerial vehicle 20 is effectively improved.

At least one unit growth value increases with increasing historical usage data. For example, as can be seen from the usage behavior shown in table 1 in which the user flies and accumulates the number of cities flying by using the drone 20, the unit growth value increases as the number of cities increases. It can be understood that it is comparatively difficult to increase the number of cities that the accumulatively flies, and at this moment, the number of corresponding promotion unit growth value when the quantity of city number is more can effectively stimulate the user to increase the number of cities in an effort to this realizes the quick promotion of the big rise and the grade of assembly growth value, also can improve the probability that the user carried unmanned aerial vehicle with oneself when going on a journey simultaneously, and then improves the product frequency of use and promotes the product effect of publicity.

The at least one unit growth value changes according to a change of a data section in which the historical usage data is located, and the unit growth value increases as a maximum value of the data section increases. For example, as can be seen from the usage behavior shown in table 1, in which the user uses the drone 20 to fly and accumulate the number of cities being flown, the unit growth value is 2400 when the number of cities is within [7,9], and the unit growth value is 4800 when the number of cities is greater than 10. The setting can also effectively stimulate the user to try to increase the number of cities, so that the large increase of the length value of the assembly and the quick increase of the grade are realized.

If the change value of the growth value of the using behavior in the preset time reaches the preset change value, the growth value does not increase along with the increase of the historical using data of the using behavior in the preset time. For example, after the change value of the historical usage data of the usage behavior, which is the number of times the user edits the file acquired by the drone 20, reaches 4800 in 1 month, the growth value of the usage behavior does not increase any more in the month even if the number of edits increases again. After the expiration of the month, if the number of edits increases again, the growth value of the usage behavior continues to increase. By limiting the change of the growth value of certain using behaviors, the problems that the reward is excessive and the growth value of the assembly is too fast can be avoided.

Additionally, in some embodiments, the unit growth value of the number of cities that the user is flying using drone 20 to accumulate flying may also be adjusted according to the city thermodynamic diagram. Wherein, what city thermodynamic diagram showed is the number of users who uses unmanned aerial vehicle 20 in each city, and the heating power value in a certain city is higher, explains that more users control unmanned aerial vehicle 20 flight in this city. Exemplarily, assuming that the thermal value of beijing is higher than that of tianjin, the unit growth value is 100 when the number of cities flown cumulatively by the user using the drone 20 reaches 1 and the city is beijing, and the unit growth value is 200 when the number of cities flown cumulatively by the user using the drone 20 reaches 2 and the city is beijing; if the number of cities that the user uses the unmanned aerial vehicle 20 to fly accumulatively reaches 1 and the city is tianjin city, the unit growth value is 60, and if the number of cities that the user uses the unmanned aerial vehicle 20 to fly accumulatively reaches 2 and the city is tianjin city, the unit growth value is 100. Adjust the unit growth value that the user used the city number that unmanned aerial vehicle 20 flies the accumulation to fly through city thermodynamic diagram, can stimulate the user to go to the city of more popular to use unmanned aerial vehicle 20 in popular city, realize the quick growth of assembly growth value and the quick promotion of grade with this.

Referring to FIG. 6, in some embodiments, each user level corresponds to an overall long interval. Step 02, determining the user grade to which the user belongs according to the total length value comprises the following steps:

021: determining an assembly length value interval to which the assembly length value belongs; and

022: and determining the user grade according to the determined assembly length value interval.

Referring back to fig. 2, in some embodiments, step 021 and step 022 can both be implemented by processor 11. That is, the processor 11 may be further configured to determine an overall length value interval to which the overall length value belongs, and determine the user rank according to the determined overall length value interval.

Table 2 is a table of the correspondence between the total length value and the user rank according to an embodiment of the present application.

TABLE 2

As shown in Table 2, the total length value for user level 0 is 0, the total length value interval for user level 1 is (0, 40), (40, 150) for level 2, ((150,387) for level 3, ((387,837) for level 4, and so on.

Fig. 7 is a graph showing changes in the total growth value corresponding to table 2. As shown in table 2 and fig. 7, the higher the user rank is, the larger the span of the total long value interval corresponding to the user rank is. For example, the total length value interval corresponding to the user level 2 is (40,150 ]; the span of the interval is 110, the total length value interval corresponding to the user level 3 is (150,387), the span of the interval is 237; the total length value interval corresponding to the user level 4 is (387,837), the span of the interval is 450.

Table 3 is a user number ratio table of each user level section according to an embodiment of the present application.

TABLE 3

User class interval	User ratio	User class interval	User ratio
					0～5	23.70％	30～35	1.00％
6～11	24.00％	36～41	0.30％
				12～17	31.70％	42～47	0.10％
18～23	31.70％	42～47	0.10％
				24～29	3.80％	54～59	0.00％

Fig. 8 is a user level distribution diagram corresponding to table 2. Fig. 9 is a user number ratio chart corresponding to each user rank section in table 3. As can be seen from fig. 8, 9 and table 3, by setting the cell growth value and the total length value interval corresponding to the user class, about 80% of users are in the user class interval of 0 to 23, and about 20% of users are in the user class interval above 23, and the overall distribution conforms to the negative status.

Referring to fig. 10, in some embodiments, the method for defining user rights further includes:

04: determining the user achievement of the user according to the user grade; and

05: shows user level, level medal and usage behavior medal.

Referring back to fig. 2, in some embodiments, step 04 may be implemented by the processor 11, and step 05 may be implemented by the display 12 of the mobile terminal 10. That is, the processor 11 may be configured to determine the user achievement of the user based on the user rating. Display 12 may be used to display user level, level medals and usage behavior medals.

In particular, user achievements include a level medal corresponding to the user level and a usage behavior medal corresponding to each usage behavior. For example, when the user level reaches level 5, the corresponding level medal of the user is awarded; rewarding the level medal corresponding to the user when the level of the user reaches 10 level; when the number of cities flown by the user using the unmanned aerial vehicle 20 in the accumulated flight reaches 3, awarding corresponding use behavior medals; when the number of times that the user shares the file acquired by the drone 20 reaches 10 times, the corresponding usage behavior medals and the like are awarded. As shown in FIG. 11, after the user has acquired the level medal and the behavior medal, the display 12 may display the user level, the level medal, and the behavior medal at the same time.

In some embodiments, display 12 may also display only user level and level medals; or the display 12 may display only the user level, the medal of the behavior of use, and the like.

Referring to fig. 12, in some embodiments, the method for defining user rights further includes:

06: the plurality of users are displayed in a ranking manner according to the user rank of the plurality of users, and the plurality of users include users who use the drone 20 and other users who use the drone.

Referring back to fig. 2, in some embodiments, step 06 may be implemented by the display 12. That is, the display 12 may be used to display a plurality of users in a ranked order according to their user ranks. Wherein the plurality of users includes users using the drone 20 and other users using the drone.

Specifically, as shown in fig. 13, the display 12 may display a leader board of the user ratings of a plurality of users using the drone. And arranging the users in the ranking list according to the user ranking from top to bottom. Therefore, the user can know the user grade of the user and can also know the user grades of other users. The user may click on a nickname of a user that is ranked the same as or lower than himself to enter the user's dynamic circle. The personal dynamic of each user is shown in the dynamic circle of the user, and the personal dynamic comprises images, videos, recorded tracks and the like published by the user and shot by the unmanned aerial vehicle. The user can get into with oneself with the rank or than the dynamic circle of the user that oneself rank is low to browse, share, download, use the file that unmanned aerial vehicle that this user published obtained, so, realize a plurality of interactions that use between unmanned aerial vehicle's the user, radiate user's social circle, improve the exposure rate of unmanned aerial vehicle product.

Referring to fig. 14, the present application further provides a non-volatile computer readable storage medium 30. Non-transitory computer readable storage medium 30 contains computer readable instructions. When the computer readable instructions are executed by the processor 40, the processor performs the user right defining method according to any one of the above embodiments. Processor 40 may be processor 11 in fig. 2, among others.

Referring to FIG. 1, for example, when the computer readable instructions are executed by the processor 40, the processor performs the following steps:

01: determining an overall length value of the user from usage behavior of the user using the drone 20;

02: determining the user grade of the user according to the total length value; and

03: and determining the authority of the user according to the user level, wherein the authority is increased along with the increase of the user level, and the authority comprises at least one of the use authority of the user for using the unmanned aerial vehicle 20 and the interaction authority of the user for interacting with other users for using the unmanned aerial vehicle.

Referring to FIG. 4, for example, when the computer readable instructions are executed by the processor 40, the processor performs the following steps:

011: calculating the growth value of each using behavior to obtain a plurality of growth values respectively corresponding to the plurality of using behaviors; and

012: an aggregate growth value is calculated based on the plurality of growth values.

Referring to FIG. 5, for example, when the computer readable instructions are executed by the processor 40, the processor performs the following steps:

0111: acquiring historical use data, current use data and a historical growth value of the use behavior;

0112: calculating a data difference between the current usage data and the historical usage data; and

0113: and calculating the growth value of the using behavior according to the unit growth value, the historical growth value and the data difference value of the using behavior.

In the description herein, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example" or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and the scope of the preferred embodiments of the present application includes other implementations in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present application.

Although embodiments of the present application have been shown and described above, it is to be understood that the above embodiments are exemplary and not to be construed as limiting the present application, and that changes, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present application.

Claims (35)

1. A user right defining method, comprising:

determining an overall length value of a user using an unmanned aerial vehicle according to the usage behavior of the user;

determining the user grade of the user according to the assembly length value; and

and determining the authority of the user according to the user level, wherein the authority increases along with the increase of the user level, and the authority comprises at least one of the use authority of the user for using the unmanned aerial vehicle and the interaction authority of the user for interacting with other users for using the unmanned aerial vehicle.

2. The user permission defining method according to claim 1, wherein the usage behavior includes at least one of a cumulative flight duration of the user flying using the drone, a cumulative flight mileage of the user flying using the drone, a cumulative number of cities of the user flying using the drone, a cumulative number of times of photographing during the user flying using the drone, a cumulative length of time of recording during the user flying using the drone, a cumulative number of times of using smart shooting functions during the user flying using the drone, a number of times of editing files acquired by the drone by the user, a number of times of sharing files acquired by the drone by the user, and a degree of perfection of personal information of the user.

3. The user right defining method according to claim 1, wherein the usage right includes at least one of a flying speed of the drone, a flying area of the drone, and a flying time of the drone;

the interactive permission comprises at least one of files acquired by other users by using the unmanned aerial vehicle, shared by the users, and files acquired by other users by using the unmanned aerial vehicle.

4. The user authority defining method according to claim 2 or 3, wherein the file acquired by the unmanned aerial vehicle includes at least one of a picture taken by the unmanned aerial vehicle, a video recorded by the unmanned aerial vehicle, and a flight trajectory recorded by the unmanned aerial vehicle.

5. The method according to claim 1, wherein when a user is associated with a drone, the usage behavior is a usage behavior of the drone by the user;

when one user is simultaneously associated with a plurality of unmanned aerial vehicles, the using behavior is the sum of using behaviors of the user using the plurality of unmanned aerial vehicles.

6. The method for defining user authority according to claim 1, wherein the determining the total length value of the user according to the usage behavior of the user using the drone comprises:

calculating a growth value of each of the usage behaviors to obtain a plurality of growth values corresponding to a plurality of the usage behaviors respectively; and

calculating the total growth value from a plurality of the growth values.

7. The method as claimed in claim 6, wherein the calculating a growth value of each of the usage behaviors to obtain a plurality of growth values corresponding to a plurality of usage behaviors respectively comprises:

acquiring historical use data, current use data and a historical growth value of the use behavior;

calculating a data difference between the current usage data and the historical usage data; and

calculating a growth value of the usage behavior according to the unit growth value of the usage behavior, the historical growth value, and the data difference value.

8. The method according to claim 7, wherein different usage behaviors correspond to different unit growth values.

9. A user rights definition method according to claim 7, characterized in that at least one of said unit growth values increases with increasing historical usage data.

10. The method according to claim 7, wherein at least one of the unit growth values varies according to a variation of a data interval in which the historical usage data is located, and the larger a maximum value of the data interval is, the larger the unit growth value is.

11. The method as claimed in claim 7, wherein if the variation value of the growth value of the usage behavior within a predetermined time reaches a predetermined variation value, the growth value does not increase with the increase of the historical usage data of the usage behavior within the predetermined time.

12. A method for defining user rights according to claim 1, wherein each of said user classes corresponds to an overall long interval; the determining the user grade to which the user belongs according to the total length value comprises:

determining an assembly length value interval to which the assembly length value belongs; and

and determining the user grade according to the determined total long value interval.

13. The method according to claim 12, wherein the higher the user level is, the larger the span of the total long value interval corresponding to the user level is.

14. The user right defining method according to claim 1, further comprising:

and determining the user achievement of the user according to the user grade.

15. The user rights definition method of claim 14, wherein the user achievement includes a level medal corresponding to the user level, the user rights definition method further comprising:

and displaying the user grade and the grade medal.

16. The user rights definition method of claim 14, characterized in that the user achievement further includes a usage behavior medal corresponding to each usage behavior, the user rights definition method further comprising:

displaying the user level and the usage behavior medal.

17. The user right defining method according to claim 1, further comprising:

and arranging and displaying a plurality of users according to the user grades of the users, wherein the users comprise the user using the unmanned aerial vehicle and other users using the unmanned aerial vehicle.

18. A mobile terminal, characterized in that the mobile terminal is in communication with a drone, the mobile terminal comprising a processor for:

determining an overall length value of a user using the unmanned aerial vehicle according to usage behaviors of the user;

determining the user grade of the user according to the assembly length value; and

and determining the authority of the user according to the user level, wherein the authority increases along with the increase of the user level, and the authority comprises at least one of the use authority of the user for using the unmanned aerial vehicle and the interaction authority of the user for interacting with other users for using the unmanned aerial vehicle.

19. The mobile terminal of claim 18, wherein the usage behavior comprises at least one of a cumulative flight duration of the user flying using the drone, a cumulative flight mileage of the user flying using the drone, a cumulative number of cities the user flying using the drone flying for cumulative flight, a cumulative number of photographs the user flying using the drone during the flight, a cumulative length of video recordings the user flying using the drone during the flight, a cumulative number of uses of smart photographing functions the user flying using the drone during the flight, a number of times the user edits files acquired by the drone, a number of times the user shares files acquired by the drone, and a degree of perfection of personal information of the user.

20. The mobile terminal of claim 18, wherein the usage rights include at least one of a flight speed of the drone, a flight area of the drone, a flight time of the drone;

the interactive permission comprises at least one of files acquired by other users by using the unmanned aerial vehicle, shared by the users, and files acquired by other users by using the unmanned aerial vehicle.

21. The mobile terminal of claim 19 or 20, wherein the file acquired by the drone comprises at least one of a picture taken by the drone, a video recorded by the drone, and a flight trajectory recorded by the drone.

22. The mobile terminal of claim 18, wherein when a user is associated with a drone, the usage behavior is a usage behavior of the user using the drone;

when one user is simultaneously associated with a plurality of unmanned aerial vehicles, the using behavior is the sum of using behaviors of the user using the plurality of unmanned aerial vehicles.

23. The mobile terminal of claim 18, wherein the processor is further configured to:

calculating a growth value of each of the usage behaviors to obtain a plurality of growth values corresponding to a plurality of the usage behaviors respectively; and

calculating the total growth value from a plurality of the growth values.

24. The mobile terminal of claim 23, wherein the processor is further configured to:

acquiring historical use data, current use data and a historical growth value of the use behavior;

calculating a data difference between the current usage data and the historical usage data; and

calculating a growth value of the usage behavior according to the unit growth value of the usage behavior, the historical growth value, and the data difference value.

25. The mobile terminal of claim 24, wherein different usage behaviors correspond to different unit growth values.

26. The mobile terminal of claim 24, wherein at least one of the unit growth values increases with increasing historical usage data.

27. The mobile terminal of claim 24, wherein at least one of the unit growth values varies according to a variation of a data interval in which the historical usage data is located, and the larger a maximum value of the data interval is, the larger the unit growth value is.

28. The mobile terminal of claim 24, wherein if a variation value of the growth value of the usage behavior within a predetermined time reaches a predetermined variation value, the growth value does not increase with an increase of the historical usage data of the usage behavior within the predetermined time.

29. The mobile terminal of claim 18, wherein each of the user levels corresponds to an overall long interval; the processor is further configured to:

determining an assembly length value interval to which the assembly length value belongs; and

and determining the user grade according to the determined total long value interval.

30. The mobile terminal of claim 29, wherein the higher the user rating, the larger the span of the total long interval corresponding to the user rating.

31. The mobile terminal of claim 18, wherein the processor is further configured to:

and determining the user achievement of the user according to the user grade.

32. The mobile terminal of claim 31, characterized in that the user achievement includes a level medal corresponding to the user level, the mobile terminal further comprising a display for displaying the user level and the level medal.

33. The mobile terminal of claim 31, wherein the user achievements further include a usage behavior medal corresponding to each usage behavior, the mobile terminal further including a display for displaying the user level and the level medal.

34. The mobile terminal of claim 18, further comprising a display for displaying a plurality of users in a ranking according to the user ranking of the users, wherein the users include the user using the drone and the other users using the drone.

35. A non-transitory computer readable storage medium containing computer readable instructions that, when executed by a processor, cause the processor to perform the user rights definition method of any of claims 1-17.

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