CN108133739B

CN108133739B - Motion path pushing method and device and storage medium

Info

Publication number: CN108133739B
Application number: CN201711342798.8A
Authority: CN
Inventors: 杨超
Original assignee: China Mobile Communications Group Co Ltd; MIGU Interactive Entertainment Co Ltd
Current assignee: China Mobile Communications Group Co Ltd; MIGU Interactive Entertainment Co Ltd
Priority date: 2017-12-14
Filing date: 2017-12-14
Publication date: 2021-06-04
Anticipated expiration: 2037-12-14
Also published as: CN108133739A

Abstract

The invention discloses a pushing method of a motion path, which comprises the following steps: determining the heat to be consumed every day according to the set exercise plan information; determining a first planned movement speed required to consume the heat and a heat consumption rate at the first planned movement speed according to historical movement data; determining a first planned exercise duration required to consume the heat according to the heat consumption rate and the heat; determining a motion path to be pushed according to the first planned motion speed and the first planned motion duration; and displaying the motion path. The invention also provides a pushing device of the motion path and a storage medium.

Description

Motion path pushing method and device and storage medium

Technical Field

The present invention relates to a path pushing technology, and in particular, to a method and an apparatus for pushing a motion path, and a storage medium.

Background

Along with the continuous improvement of living standard of people, people pay more and more attention to the health condition of self, and in daily life, people often guarantee self health condition through modes such as motion, diet, work and rest.

Taking sports as an example, the user can choose outdoor sports to exercise in addition to using fitness equipment in a gym to exercise. When a user adopts outdoor sports to exercise, the user usually carries with him a terminal device with a sports APP, so that the user can check the current sports information in real time through the sports APP on the terminal device. For example, at least one of the current running path, running speed, running duration, heat consumed and the like of the user can be viewed through the exercise APP.

In the prior art, a user can also make a fitness plan through the exercise APP, and the exercise APP pushes exercise information and diet information to the user according to the fitness plan. For example, according to a fitness plan formulated by a user, the amount of heat consumed by the user during daily exercise is 500kcal, in this case, when the user performs running fitness outdoors, the exercise APP can only record the consumption of the user due to running in real time, and cannot plan the exercise path, exercise speed and/or exercise duration that the user does not perform. Therefore, through the current exercise APP, the user can only see the heat which is consumed currently and the information of the current running speed, the distance and the like, but cannot know the distance and the speed which need to be run next and the heat to be consumed. Therefore, the existing exercise APP can only simply record the exercise data of the user, and cannot plan a proper running plan (running route and speed matching in the running process) for the user according to the exercise plan (planned heat consumption) of the user, so that the user may not be completely executed according to the exercise plan set by the user when exercising outdoors, and poor use experience is brought to the user.

Disclosure of Invention

In order to solve the technical problem, embodiments of the present invention provide a method, an apparatus, and a storage medium for pushing a motion path, which can solve the problem that in the prior art, a motion APP cannot push motion planning information for a user according to a fitness plan set by the user.

The technical scheme of the embodiment of the invention is realized as follows:

according to an aspect of an embodiment of the present invention, there is provided a method for pushing a motion path, the method including:

determining the heat to be consumed every day according to the set exercise plan information;

determining a first planned movement speed required to consume the heat and a heat consumption rate at the first planned movement speed according to historical movement data;

determining a first planned exercise duration required to consume the heat according to the heat consumption rate and the heat;

determining a motion path to be pushed according to the first planned motion speed and the first planned motion duration;

and displaying the motion path.

In the foregoing solution, the determining a first planned movement speed required for consuming the heat according to the historical movement data includes:

acquiring a historical movement speed set from the historical movement data;

determining the occurrence frequency of each historical speed according to the historical movement speed set;

determining more than one historical speed that occurs the most frequently as a first projected movement speed required to consume the heat.

determining historical average speed according to the historical motion data;

determining the historical average speed as a first projected movement speed required to consume the heat.

acquiring a historical movement speed set from the historical movement data;

determining the movement speed to be recommended according to the occurrence frequency of each historical speed in the historical movement speed set;

displaying the motion speed to be recommended, and receiving a target motion speed selected according to the motion speed to be recommended;

determining the target movement speed as a first planned movement speed required for consuming the heat.

In the foregoing solution, the determining a heat consumption rate at the first planned movement speed for consuming the heat according to the historical movement data includes:

obtaining at least one of historical movement duration and historical heat consumption rate from the historical movement data;

and determining the heat consumption rate of the consumed heat at the first planned movement speed according to the historical movement time length and the historical heat consumption rate.

In the above scheme, after determining the movement path to be pushed according to the first planned movement speed and the first planned movement time, the method further includes:

monitoring the current actual movement speed and the movement duration at the current actual movement speed to obtain a monitoring result;

when the monitoring result represents that the continuous movement time length under the current actual movement speed reaches the preset movement time length of the first planned movement time length, determining to finish the residual movement path of the movement path according to the current actual movement path;

determining a second planned movement speed and a second planned movement duration required for consuming the heat according to the remaining movement distance;

and displaying the second planned movement speed and the second planned movement time.

acquiring current position information to determine a current position;

and adjusting the motion path by taking the current position as a starting point and an end point of the current motion according to the remaining motion path.

According to another aspect of the embodiments of the present invention, there is provided a pushing device of a motion path, the device including: a determination unit and a display unit;

the determining unit is used for determining the heat to be consumed every day according to the set movement plan information; and determining a first planned movement speed required for consuming the heat and a heat consumption rate at the first planned movement speed according to historical movement data; the heat consumption rate is used for determining the heat consumption rate according to the heat consumption time; determining a motion path to be pushed according to the first planned motion speed and the first planned motion duration;

the display unit is used for displaying the motion path.

In the above scheme, the apparatus further comprises: an acquisition unit and a receiving unit;

the acquisition unit is used for acquiring a historical movement speed set from the historical movement data;

the display unit is also used for displaying the movement speed to be recommended;

the receiving unit is used for receiving the target movement speed selected according to the speed to be recommended;

the determining unit is specifically configured to determine the occurrence number of each historical speed according to the historical movement speed set; determining more than one historical speed with the largest occurrence number as a first planned movement speed required for consuming the heat; or determining a historical average speed according to the historical motion data; determining the historical average speed as a first projected movement speed required to consume the heat; or determining the movement speed to be recommended according to the occurrence frequency of each historical speed in the historical movement speed set; determining the target movement speed as a first planned movement speed required for consuming the heat.

According to a third aspect of embodiments of the present invention, there is provided a pushing device of a movement path, the device including: a memory and a processor;

wherein the memory is to store a computer program operable on the processor;

the processor is configured to execute the steps of the method according to any one of the above methods for pushing a motion path when the computer program is executed.

According to a fourth aspect of embodiments of the present invention, there is provided a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of any one of the above-described methods of pushing a motion path.

In the technical scheme of the embodiment of the invention, a method, a device and a storage medium for pushing an exercise path are provided, the daily heat consumption of a user is determined by obtaining an exercise plan set by the user, the running speed used by the user and the heat consumption rate of the user at the running speed are determined according to historical exercise data of the user, the exercise duration and the exercise distance required by the user to reach the daily heat consumption at the default running speed are determined according to the expected heat consumption of the user and the determined heat consumption rate of the user, and the exercise path is planned for the user according to the determined exercise distance. Therefore, the exercise plan set by the user can be converted into an actual running route, more visual and scientific exercise guidance is provided for the user, and better use experience is brought for the user.

Drawings

Fig. 1 is a schematic flow chart of a pushing method of a motion path according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a pushing device with a moving path according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a pushing device with a moving path according to an embodiment of the present invention.

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

Fig. 1 is a schematic flow chart of a pushing method of a motion path according to an embodiment of the present invention; as shown in fig. 1, the method includes:

step 101, determining the heat to be consumed every day according to the set exercise plan information;

in the embodiment of the invention, when a user uses a sport APP installed in a terminal for the first time, the user registration can be carried out through a user registration port of the sport APP, after the registration is successful, user account information during the user registration is input into the user registration port of the sport APP to complete the user registration, and after the user successfully logs in the sport APP, the user can set the own sport plan through a personal information port of the sport APP.

Specifically, when the user performs exercise plan setting, the physical sign information and the exercise target information of the user may be input in the personal information input area of the exercise APP.

Wherein, the physical sign information of the user comprises: information such as age, sex, height, weight and the like of the user;

the moving object information includes: exercise cycle and exercise effect, i.e. what fitness effect is expected to be achieved in how many days. For example, it is desirable to reduce 1kg in 30 days.

After the user sets the exercise plan of the user successfully, the exercise APP can generate a fitness plan for the user according to the exercise plan set by the user.

Here, the fitness program refers to: the user needs to consume the heat every day, the sports item needing to be performed by consuming the heat every day, the exercise speed and the exercise duration of the heat needing to be consumed every day under the sports item, and the like.

For example, the exercise APP determines that the sign information of the user is, according to an exercise plan set by the user: age: 25; sex: a woman; height: 1.65; weight: 65 kilograms; the moving object information is: the weight of the patient was reduced by 1kg in 30 days. Exercise APP determines that the user needs to consume 7300kcal of calories from losing 1Kg of body weight in 30 days according to the amount of calories that would result from decomposing 1Kg of fat, and divides 7300 by 30 to arrive at the goal that the user needs to consume at least 257kcal of calories per day on average in 30 days to achieve a weight loss of 1Kg in 30 days. That is, the exercise APP determines that the amount of heat the user needs to consume per day is 257kcal according to the exercise plan information set by the user.

In the embodiment of the invention, the user can also set the self-body-building plan of the user through the exercise APP.

For example, the user inputs at least one of the amount of heat expected to be consumed each day, the expected exercise duration, the exercise kilometers, the expected exercise item and the like through the information input port of the exercise APP, and after the setting of the exercise plan is completed, the set exercise plan is saved, so that when the exercise APP detects that the user is exercising, the exercise APP supervises the exercise condition of the user each day according to the exercise plan set by the user.

Step 102, determining a first planned movement speed required for consuming the heat according to historical movement data, and a heat consumption rate at the first planned movement speed;

in the embodiment of the invention, after the exercise APP determines the daily heat to be consumed by the user, the historical exercise data of the user is obtained, and the first planned exercise speed required by the user to finish the daily heat to be consumed and the heat consumption rate at the first planned exercise speed are determined according to the historical exercise data of the user.

Here, the sports APP generally defaults to using the sports data within the past 7 days as the user's historical sports data. The historical exercise data may include exercise duration, exercise distance, average exercise speed, maximum exercise speed, and caloric consumption of the user.

The historical motion data can be obtained through a local database of the motion APP, and can also be obtained through a background server of the motion APP.

When the motion APP acquires historical motion data of a user through a background server, an acquisition request of the motion data can be sent to the background server, wherein the acquisition request of the motion data carries a user account. And after the background server receives the acquisition request of the motion data, searching the user account in a database of the background server, and obtaining a search result.

When the search result represents that the user account is searched, sending historical motion data corresponding to the user account to a motion APP; and when the search result represents that the user account is not searched or the user account is searched but the historical motion data corresponding to the user account is not searched, sending information of the historical motion data of the user which is not searched to the motion APP.

In the embodiment of the invention, after the exercise APP obtains the historical exercise data of the user, determining the first planned exercise speed required by the user to consume the heat every day according to the historical exercise data of the user at least comprises the following schemes:

the first scheme is as follows: the exercise APP obtains a historical exercise speed set from historical exercise data of the user, determines the occurrence frequency of each historical speed according to the historical exercise speed set, and determines more than one historical speed with the largest occurrence frequency as a first planned exercise speed required by the user to plan the daily consumed heat.

For example, the historical movement velocity set includes: and three historical movement speeds of 5km/h, 8km/h and 10km/h, wherein the occurrence frequency of 5km/h is 6, the occurrence frequency of 8km/h is 8, and the occurrence frequency of 10km/h is 5. The method is determined by comparing the occurrence times of three historical movement speeds: when the moving speed is more than 8 and more than 6 and more than 5, namely the number of times of occurrence of the moving speed 8km/h is the maximum, the moving APP determines the moving speed 8km/h as a first planned moving speed required by the user for consuming heat every day; or, the three historical movement speeds are respectively used as three movement stages in the first planned movement speed, namely, the movement speed of 5km/h is determined as the planned movement speed of the first movement stage required by the user to consume heat every day; the movement speed of 6km/h is determined as the planned movement speed in the second movement stage required by the user to consume the heat every day, and the movement speed of 8km/h is determined as the planned movement speed in the third movement stage required by the user to consume the heat every day. Here, the sequence of the motion phases of the three historical motion speeds in each day can be adjusted according to the actual motion situation.

Scheme II: determining historical average speed according to the historical motion data; determining the historical average speed as a first projected movement speed required to consume the heat.

For example, determining a historical speed of the user from historical motion data of the user includes: 5km/h, 8km/h and 10km/h, and the historical average speed of the user is obtained by calculation as follows: (5+8+10)/3 ═ 7.6km/h, the sport APP determines 7.6km/h as the first planned sport speed at which the user needs to consume calories per day.

The third scheme is as follows: acquiring a historical movement speed set from the historical movement data; determining the movement speed to be recommended, wherein the occurrence times of the movement speeds are greater than or equal to preset times according to the occurrence times of each historical speed in the historical movement speed set; displaying the motion speed to be recommended, and receiving a target motion speed selected according to the motion speed to be recommended; determining the target movement speed as a first planned movement speed required for consuming the heat.

For example, the preset number of times in the exercise APP is 6, the number of times that the user moves at a movement speed of 5km/h is 6, the number of times that the user moves at a movement speed of 8km/h is 8, the number of times that the user moves at a movement speed of 10km/h is 5, the number of times that the user moves at a movement speed of 8km/h is determined by comparing the number of times that each movement speed occurs with the preset number of times, the number of times that the movement speed of 6km/h occurs is equal to the preset number of times 6, the number of times that the movement speed of 8km/h occurs is greater than the preset number of times 6, and the number of times that the movement speed of 5km/h occurs is less than the preset number of times 6, and the movement speeds of 6km/h and 8km/h are displayed to the user as recommended. Specifically, the recommended movement speed is displayed through a display screen of the terminal, so that a user can select a movement speed suitable for the user from the recommended movement speeds according to the current movement state of the user.

When a user sends a speed selection instruction to a sport APP through the sport speed recommended by the sport APP, the sport APP determines a target sport speed according to the sport selection instruction, and the target sport speed selected by the user is determined as a first planned sport speed required by the user to consume heat every day.

In this embodiment of the present invention, the determining, by the exercise APP, the heat consumption rate at the first planned exercise speed for consuming the heat according to the historical exercise data includes:

For example, the sport APP takes the sport data of the user for the past three days as the historical sport data of the user. Wherein, the caloric consumption of the user's daily exercise in these three days is respectively: 20Kcal, 22Kcal and 24Kcal, wherein the exercise time lengths of the user in each day of the three days are respectively as follows: 20 minutes, 15 minutes and 5 minutes, from which the caloric consumption rate of the user can be calculated as (20+22+ 24)/(20 +25+15) ═ 1.1 Kcal/min.

Of course, the caloric consumption rate of the user consuming the calories per day can also be determined according to the corresponding relationship between the caloric consumption rate preset in the exercise APP and the exercise speed.

For example, when the sport APP determines that the user needs to consume heat at a first planned sport speed of 8km/h every day according to historical sport data of the user, a heat consumption rate corresponding to the sport speed of 8km/h is searched according to a preset corresponding relationship between the sport speed and the heat consumption rate, and the heat consumption rate corresponding to the first planned sport speed of 8km/h is determined as the heat consumption rate required by the user to consume heat every day.

Or when the exercise APP monitors that the user is currently exercising, the current exercise speed of the user is obtained, the heat consumption rate corresponding to the current exercise speed is obtained according to the preset corresponding relation between the exercise speed and the heat consumption rate, and the heat consumption rate is determined as the heat consumption rate required by the user to consume heat every day.

In the embodiment of the invention, when the motion APP detects that a user moves, the motion data of the user is recorded in real time, and when the motion APP is in a networking state, the motion data recorded in real time is uploaded to a background server corresponding to the motion APP, so that the motion data of the user and a user account of the user are correspondingly stored in a database of the background server by the background server, and the user can check the historical motion data of the user through the background server at a later stage; or when the motion APP is in an unconnected state, the motion APP stores the motion data recorded in real time in a local database of the motion APP, so that the user can check the historical motion data through the local database at a later stage.

In the embodiment of the invention, when a user checks the historical motion data of the user through the background server, a motion data checking instruction can be sent to the background server through the motion APP, and the motion data checking instruction carries the user account. And after the motion data viewing instruction is successfully responded by the background server, receiving historical motion data which is sent by the background server according to the user account and corresponds to the user account, and obtaining the latest motion condition of the user according to the historical motion data by the user. Therefore, the user checks the historical motion data of the user through the background server, the storage space of the motion APP is not occupied, the historical motion data which is the nearest historical motion data to the current day can be checked by the user, and therefore the obtained checking result is more accurate.

When the user checks the historical motion data through the local database, the user can acquire the local data by clicking the local check port in the motion APP, so that the user can avoid network congestion by checking the historical motion data through the local database, and the timeliness of acquiring the data is guaranteed.

103, determining a first planned movement time required for consuming the heat according to the heat consumption rate and the heat;

for example, the exercise APP determines the amount of heat that the user needs to consume per day according to the exercise plan of the user as: 200Kcal and the daily calorie consumption rate of the user are 2Kcal/min, the user can determine that the user needs to exercise for 100 minutes to complete 200Kcal of the daily calorie consumption by dividing the daily calorie consumption rate of the user, and then 100 minutes is the first planned exercise time.

104, determining a motion path to be pushed according to the first planned motion speed and the first planned motion duration;

in the embodiment of the invention, after the exercise APP determines the heat quantity which needs to be consumed by the user every day, the first planned exercise speed and the first planned exercise time length which need to exercise the heat quantity every day, the exercise route of the user which needs to exercise every day is determined according to the first planned exercise speed and the first planned exercise time length, and the exercise route which is suitable for the user is planned according to the exercise route.

Here, the movement path may be a path planned for the user to be closer to the user according to the user's location.

Specifically, the sport APP may be associated with a third-party application, and then obtain the current location information of the user through the third-party application. For example, the movement APP can be associated with a map APP, then the current position coordinate of the user is obtained through the map APP, and then the movement path is planned for the user according to the position coordinate of the user obtained through the map APP.

Or the movement APP can be associated with the navigation APP, then the current position coordinate of the user is obtained through the navigation APP, and then the movement path is planned for the user according to the position coordinate of the user obtained through the navigation APP.

Or the sport APP has a positioning function, acquires the current position coordinate of the user through the positioning function, and plans a movement path for the user according to the position coordinate of the user acquired by the positioning function.

After the exercise APP obtains the current position coordinate of the user, the current position of the user is determined as the starting point and the terminal of the exercise according to the position coordinate, an exercise route is planned for the user according to the determined exercise route, the starting point and the terminal of the exercise, and when the user starts to exercise is monitored, exercise navigation is carried out on the user according to the determined exercise route.

And 105, displaying the motion path.

Here, after the movement APP determines a movement path suitable for the user to complete heat consumption every day, the movement path is displayed through a display screen of the terminal. So, the user moves according to the motion route of motion APP planning, and the actual motion route that oneself's amount of exercise that can know accomplishes every day will carry out promptly to the better completion daily motion target of convenience of customers avoids the user to not know the trouble of moving to which place and carrying out the return journey.

In the embodiment of the invention, after the motion APP determines the motion path to be pushed according to the first planned motion speed and the first planned motion duration planned for the user, the motion APP also monitors the current motion speed and the motion duration at the current motion speed of the user to obtain a monitoring result; when the monitoring result represents that the continuous movement time of the user at the current movement speed reaches the preset movement time of the first planned movement time, determining to finish the remaining movement path of the movement path according to the current movement path; then determining a second planned movement speed and a second planned movement time length required by the user to consume the heat according to the remaining movement distance; and displaying the second planned movement speed and the second planned movement duration for the user through a terminal where the movement APP is located. Therefore, the proper pace distribution of each stage and the duration of each stage in the running process can be planned for the user.

For example, the sport APP defines the sport item for the user as running sport, the planned sport speed for the user is 5km/h, and the sport distance planned for the user is 7.5km according to the planned sport speed of 5km/h and the heat amount planned to be consumed by the user every day. However, due to the problem of physical strength consumption of the user in the actual running process, the user cannot always run at the planned running speed of 5km/h determined by the exercise APP, for example, when the user just starts running, the running speed may be higher than the planned running speed by 5km/h, and in the latter half of the planned running route, the running speed of the user may be lower than the planned running speed by 5 km/h.

For example, the daily heat consumed by exercise that an exercise APP programs for a user is: 120Kcal, the planned exercise rate per day is three phases: namely 5 minutes of 5km/h movement, 15 minutes of 8km/h movement and 10 minutes of 10km/h movement, the running distance planned for the user is as follows: 5km, in the actual exercise process, probably because the physical ability of the user just starting to exercise is better, the running speed of the user is detected to be 8km/h, at this time, because the running speed of the first exercise stage in one day is changed by the user, in order to enable the user to still run the planned exercise distance and complete the planned exercise heat consumption, the exercise APP can adjust the exercise speed and the corresponding exercise duration of each planned exercise stage according to the actual exercise speed.

For example, the exercise APP detects that the current actual exercise speed of the user is 8km/h, the caloric consumption rate corresponding to the actual exercise speed is 8km/h is 4Kcal/min, the caloric consumption rate of the exercise speed is 5km/h is 2Kcal/min, and the caloric consumption rate of the exercise speed is 4km/h is 1Kcal/min, so as to calculate that the user should run for 15min at a speed of 8km/h, then run for 20min at a speed of 5km/h, and finally run for 20min at a speed of 4km/h, and further the exercise can prompt the running speed to be changed to the user through the terminal after the user moves to a specified time node.

In the embodiment of the invention, after the movement path to be pushed is determined according to the first planned movement speed and the first planned movement duration, the movement APP is also used for acquiring the current position information of the user so as to determine the current position of the user; and adjusting the motion path by taking the position as a starting point and an end point of the current motion.

Specifically, the exercise APP can plan an exercise route meeting exercise requirements of the user according to the exercise plan of the user and the current position of the user, push the exercise route to the user to be used as an outdoor running route, and guide the user to run at a running pace required by the planned route according to planned heat consumption in the exercise plan of the user in the running process.

The terminal described in the embodiment of the invention can be equipment with voice prompt or information display functions, such as a mobile phone, a pair of intelligent shoes, a PAD and an intelligent watch, and the equipment is provided with the sport APP. The exercise APP plans an exercise route for the user through an exercise plan set by the user, and meanwhile, exercise speed matching guidance can be conducted for the user according to the actual exercise speed of the user in the exercise process, so that the execution force of the user for executing the exercise plan can be improved, more visual and scientific exercise guidance is provided for the user, and better exercise experience is brought to the user.

Fig. 2 is a schematic structural composition diagram of a pushing device with a movement path according to an embodiment of the present invention, as shown in fig. 2, the pushing device includes: a determination unit 201 and a display unit 202;

wherein, the determining unit 201 is used for determining the heat to be consumed each day according to the set exercise plan information; and determining a first planned movement speed required for consuming the heat and a heat consumption rate at the first planned movement speed according to historical movement data; the heat consumption rate is used for determining the heat consumption rate according to the heat consumption time; determining a motion path to be pushed according to the first planned motion speed and the first planned motion duration;

the display unit 202 is configured to display the motion path.

In the embodiment of the present invention, the apparatus further includes: an acquisition unit 203 and a reception unit 204;

the obtaining unit 203 is configured to obtain a historical movement speed set from the historical movement data;

the display unit 202 is further configured to display a movement speed to be recommended;

the receiving unit 204 is configured to receive a target movement speed selected according to the speed to be recommended;

the determining unit 201 is specifically configured to determine the occurrence number of each historical speed according to the historical movement speed set; determining more than one historical speed with the largest occurrence number as a first planned movement speed required for consuming the heat; or determining a historical average speed according to the historical motion data; determining the historical average speed as a first projected movement speed required to consume the heat; or determining the movement speed to be recommended according to the occurrence frequency of each historical speed in the historical movement speed set; determining the target movement speed as a first planned movement speed required for consuming the heat.

It should be noted that: in the pushing device of the movement path according to the above embodiment, only the division of the program modules is illustrated when the movement path is pushed, and in practical applications, the processing may be distributed to different program modules according to needs, that is, the internal structure of the pushing device of the movement path is divided into different program modules to complete all or part of the processing described above. In addition, the pushing device of the movement path and the pushing method of the movement path provided by the above embodiments belong to the same concept, and specific implementation processes thereof are detailed in the method embodiments and are not described herein again.

FIG. 3 is a schematic structural diagram of a second exemplary embodiment of a pushing device of a motion path; as shown in fig. 3, the pushing device 300 of the motion path may be a mobile phone, a computer, a digital broadcast terminal, an information transceiver, a game console, a tablet device, a personal digital assistant, an information pushing server, a content server, an identity authentication server, and the like. The pushing device 300 of the movement path shown in fig. 3 includes: at least one processor 301, memory 302, at least one network interface 304, and a user interface 303. The various components in the pusher 300 of the motion path are coupled together by a bus system 305. It will be appreciated that the bus system 305 is used to enable communications among the components connected. The bus system 305 includes a power bus, a control bus, and a status signal bus in addition to a data bus. For clarity of illustration, however, the various buses are labeled as bus system 305 in fig. 3.

The user interface 303 may include, among other things, a display, a keyboard, a mouse, a trackball, a click wheel, a key, a button, a touch pad, or a touch screen.

It will be appreciated that the memory 302 can be either volatile memory or nonvolatile memory, and can include both volatile and nonvolatile memory. Among them, the nonvolatile Memory may be a Read Only Memory (ROM), a Programmable Read Only Memory (PROM), an Erasable Programmable Read-Only Memory (EPROM), an Electrically Erasable Programmable Read-Only Memory (EEPROM), a magnetic random access Memory (FRAM), a Flash Memory (Flash Memory), a magnetic surface Memory, an optical disk, or a Compact Disc Read-Only Memory (CD-ROM); the magnetic surface storage may be disk storage or tape storage. Volatile Memory can be Random Access Memory (RAM), which acts as external cache Memory. By way of illustration and not limitation, many forms of RAM are available, such as Static Random Access Memory (SRAM), Synchronous Static Random Access Memory (SSRAM), Dynamic Random Access Memory (DRAM), Synchronous Dynamic Random Access Memory (SDRAM), Double Data Rate Synchronous Dynamic Random Access Memory (DDRSDRAM), Enhanced Synchronous Dynamic Random Access Memory (ESDRAM), Enhanced Synchronous Dynamic Random Access Memory (Enhanced DRAM), Synchronous Dynamic Random Access Memory (SLDRAM), Direct Memory (DRmb Access), and Random Access Memory (DRAM). The memory 302 described in connection with the embodiments of the invention is intended to comprise, without being limited to, these and any other suitable types of memory.

The memory 302 in the embodiment of the present invention is used to store various types of data to support the operation of the pushing device 300 of the movement path. Examples of such data include: any computer program for operating on the pushing device 300 of the movement path, such as an operating system 3021 and an application program 3022; operating system 3021 includes various system programs, such as a framework layer, a core library layer, a driver layer, and the like, for implementing various basic services and for processing hardware-based tasks. The application programs 3022 may contain various application programs such as a Media Player (Media Player), a Browser (Browser), etc. for implementing various application services. A program implementing the method of an embodiment of the present invention may be included in the application program 3022.

The method disclosed in the above embodiments of the present invention may be applied to the processor 301, or implemented by the processor 301. The processor 301 may be an integrated circuit chip having signal processing capabilities. In implementation, the steps of the above method may be performed by integrated logic circuits of hardware or instructions in the form of software in the processor 301. The Processor 301 may be a general purpose Processor, a Digital Signal Processor (DSP), or other programmable logic device, discrete gate or transistor logic device, discrete hardware components, or the like. Processor 301 may implement or perform the methods, steps, and logic blocks disclosed in embodiments of the present invention. A general purpose processor may be a microprocessor or any conventional processor or the like. The steps of the method disclosed by the embodiment of the invention can be directly implemented by a hardware decoding processor, or can be implemented by combining hardware and software modules in the decoding processor. The software modules may be located in a storage medium located in the memory 302, and the processor 301 reads the information in the memory 302 and performs the steps of the aforementioned methods in conjunction with its hardware.

In an exemplary embodiment, the pushing Device 300 of the motion path may be implemented by one or more Application Specific Integrated Circuits (ASICs), DSPs, Programmable Logic Devices (PLDs), Complex Programmable Logic Devices (CPLDs), Field Programmable Gate Arrays (FPGAs), general purpose processors (gpus), controllers, Micro Controllers (MCUs), microprocessors (microprocessors), or other electronic components for performing the foregoing methods.

Specifically, when the processor 301 runs the computer program, it executes: determining the heat to be consumed every day according to the set exercise plan information;

and displaying the motion path.

When the processor 301 runs the computer program, it further executes: acquiring a historical movement speed set from the historical movement data;

When the processor 301 runs the computer program, it further executes: determining historical average speed according to the historical motion data;

When the processor 301 runs the computer program, it further executes: obtaining at least one of historical movement duration and historical heat consumption rate from the historical movement data;

When the processor 301 runs the computer program, it further executes: monitoring the current actual movement speed and the movement duration at the current actual movement speed to obtain a monitoring result;

When the processor 301 runs the computer program, it further executes: acquiring current position information to determine a current position;

In an exemplary embodiment, the present invention further provides a computer-readable storage medium, such as a memory 302 including a computer program, which is executable by a processor 301 of the pushing device 300 of the motion path to perform the steps of the foregoing method. The computer readable storage medium can be Memory such as FRAM, ROM, PROM, EPROM, EEPROM, Flash Memory, magnetic surface Memory, optical disk, or CD-ROM; or may be a variety of devices including one or any combination of the above memories, such as a mobile phone, computer, tablet device, personal digital assistant, etc.

A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, performs: determining the heat to be consumed every day according to the set exercise plan information;

and displaying the motion path.

The computer program, when executed by the processor, further performs: acquiring a historical movement speed set from the historical movement data;

Determining historical average speed according to the historical motion data;

The computer program, when executed by the processor, further performs: obtaining at least one of historical movement duration and historical heat consumption rate from the historical movement data;

The computer program, when executed by the processor, further performs: monitoring the current actual movement speed and the movement duration at the current actual movement speed to obtain a monitoring result;

The computer program, when executed by the processor, further performs: acquiring current position information to determine a current position;

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention.

Claims

1. A method of pushing a motion path, the method comprising:

displaying the motion path;

2. The method of claim 1, wherein determining a first projected movement speed required to consume the heat from historical movement data comprises:

acquiring a historical movement speed set from the historical movement data;

3. The method of claim 1, wherein determining a first projected movement speed required to consume the heat from historical movement data comprises:

determining historical average speed according to the historical motion data;

4. The method of claim 1, wherein determining a first projected movement speed required to consume the heat from historical movement data comprises:

acquiring a historical movement speed set from the historical movement data;

displaying the movement speed to be recommended, and receiving a target movement speed selected according to the movement speed to be recommended;

5. The method of any one of claims 1 to 4, wherein said determining a caloric consumption rate at said first planned movement speed for consuming said caloric based on historical movement data comprises:

6. The method of claim 1, wherein after determining the movement path to be pushed according to the first planned movement speed and the first planned movement duration, the method further comprises:

acquiring current position information to determine a current position;

7. A pushing device of a motion path, characterized in that the device comprises: a determination unit and a display unit;

the determining unit is used for determining the heat to be consumed every day according to the set movement plan information; and determining a first planned movement speed required for consuming the heat and a heat consumption rate at the first planned movement speed according to historical movement data; the heat consumption rate is used for determining the heat consumption rate according to the heat consumption time; determining a motion path to be pushed according to the first planned motion speed and the first planned motion duration; the device is also used for monitoring the current actual movement speed and the movement duration at the current actual movement speed to obtain a monitoring result; when the monitoring result represents that the continuous movement time length under the current actual movement speed reaches the preset movement time length of the first planned movement time length, determining to finish the residual movement path of the movement path according to the current actual movement path; determining a second planned movement speed and a second planned movement duration required for consuming the heat according to the remaining movement distance;

the display unit is used for displaying the motion path; and the controller is further used for displaying the second planned movement speed and the second planned movement time length.

8. The apparatus of claim 7, further comprising: an acquisition unit and a receiving unit;

the receiving unit is used for receiving the target movement speed selected according to the movement speed to be recommended;

9. A pushing device of a motion path, characterized in that the device comprises: a memory and a processor;

wherein the memory is to store a computer program operable on the processor;

the processor, when executing the computer program, is adapted to perform the steps of the method of any of claims 1-6.

10. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 6.