CN115328352A - Exercise management method, wearable device and computer storage medium - Google Patents

Abstract

The invention provides an exercise management method, wearable equipment and a computer storage medium, wherein the exercise management method comprises the following steps: receiving an exercise plan sent by the electronic equipment, wherein the exercise plan comprises a plurality of segmented plans divided according to a preset time period; displaying an exercise plan interface, wherein the exercise plan interface comprises a first card indicating plan content and progress and a second card corresponding to a segmented plan, and the second card at least comprises an exercise starting icon, a state indicator indicating the completion state of the segmented plan and a period indicator indicating an exercise period associated with the segmented plan; and in response to reaching the exercise time period associated with the second card, the second card is displayed in a distinguishing mode, and the exercise starting icon in the second card is controlled to be in an enabling state. Therefore, the user can check the execution condition of the exercise plan in the wearable device and quickly and directly initiate the plan exercise from the wearable device, the interaction efficiency is improved, and the electric quantity of the wearable device is saved beneficially.

Description

Exercise management method, wearable device and computer storage medium

Technical Field

The invention relates to the field of wearable equipment, in particular to an exercise management method, wearable equipment and a computer storage medium.

Background

With the increasing concern about health and fitness, exercise is becoming an important way for people to keep their health. To enable more scientific exercises, people often use wearable devices to track the course of motion to improve their ability to move.

Currently, there are a large number of mobile phone applications that can help users to develop motion plans and track motion processes through wearable devices paired with mobile phones. However, such applications may require the user to manage the exercise program in a cell phone application, and to start or initiate from the cell phone application each time the exercise is performed according to the program, and then exercise tracking is performed by the wearable device and monitoring data is uploaded to the cell phone, resulting in the need to carry the cell phone with each exercise, which would cause inconvenience to the user using the cell phone during the exercise.

Disclosure of Invention

An embodiment of the invention aims to provide an exercise management method, a wearable device and a computer storage medium, and aims to solve the problem that in the prior art, a user is inconvenient due to the fact that a mobile phone is used for managing an exercise plan and a planned exercise is initiated or started from the mobile phone.

In a first aspect, an embodiment of the present application provides an exercise management method, which is applied to a wearable device, and includes:

receiving an exercise plan sent by the electronic equipment, wherein the exercise plan comprises a plurality of segmented plans divided according to a preset time period;

displaying an exercise plan interface, wherein the exercise plan interface comprises a first card indicating plan content and progress and a second card corresponding to a segmented plan, and the second card at least comprises an exercise starting icon, a state indicator indicating the completion state of the segmented plan and a period indicator indicating an exercise period associated with the segmented plan;

and in response to reaching the exercise time period associated with the second card, the second card is displayed in a distinguishing mode, and the exercise starting icon in the second card is controlled to be in an enabling state.

According to a first aspect of the disclosure, the method further comprises:

in response to an end of the workout session associated with the second card, the second card is dismissed from being displayed in the workout plan interface.

According to a first aspect of the disclosure, the method further comprises:

the status indicator is updated in response to completion of the segmentation plan associated with the second card.

According to a first aspect of the disclosure, an exercise plan interface is displayed comprising: the plurality of second cards are arranged in chronological order in the workout plan interface.

According to a first aspect of the disclosure, the method further comprises:

in response to touch input of an exercise start icon in an enabled state, sequentially displaying exercise guide interfaces and exercise tracking interfaces of a plurality of exercise groups in a segmented plan according to preset time, wherein the exercise guide interfaces comprise graphical interface elements indicating the motion types, exercise duration requirements and heart rate interval requirements of the exercise groups, the exercise tracking interfaces comprise heart rate scales, and the heart rate scales comprise first graphical interface objects indicating the heart rate interval requirements and second graphical interface objects indicating the current heart rate;

in response to entering a different exercise group, updating the first graphical interface object according to the heart rate interval requirements associated with the exercise group;

the user's real-time heart rate is detected while the exercise tracking interface is displayed, and the second graphical interface object is updated based on the real-time heart rate.

According to a first aspect of the disclosure, the method further comprises:

in response to the completion of the display of the exercise guidance interface and the exercise tracking interface for the plurality of exercise groups, an exercise statistics interface is displayed that includes a completion indicator indicating a completion of the exercise and a compliance indicator indicating a heart rate compliance.

According to a first aspect of the disclosure, the method further comprises:

the status indicator is updated in response to the workout completion being greater than a first preset threshold and the heart rate compliance being greater than a second preset threshold.

According to the first aspect of the present disclosure, the exercise completion is determined according to the actual time length of the user exercise and the time length requirement of the segment plan; heart rate compliance is determined based on the heart rate conditions during the user's workout and the heart rate interval requirements associated with each workout group.

A second aspect comprises a processor, a memory having stored thereon a computer program operable on the processor, the processor implementing the steps according to the above method when executing the computer program.

In a third aspect, an embodiment of the present application provides a computer storage medium, where a computer program is stored, where the computer program is executed by a processor to implement the steps of the foregoing method.

In an embodiment of the present application, an exercise management method includes: receiving an exercise program sent by the electronic equipment, wherein the exercise program comprises a plurality of segmented programs associated with different exercise days; displaying an exercise plan interface including a first card indicating an exercise progress and a plurality of second cards corresponding to a plurality of segment plans, the first card including a progress indicator indicating an exercise plan completion progress, the second cards including at least an exercise start icon, a status indicator indicating a status of the segment plan completion, and a date indicator indicating an exercise date associated with the segment plan; and in response to the arrival of the exercise day associated with the second card, the second card is distinctively displayed, and the exercise start icon in the second card is controlled to be in an enabling state. Thus, the wearable device can display the exercise plan execution progress and display a plurality of segmented plans in the exercise plan by adopting different cards, and a user can visually check the exercise plan in the wearable device; and when the exercise period that a certain card corresponds is arrived, distinguish this card of demonstration to the exercise of control this card starts the icon and is in enabling state, and the user can be swift directly initiate the plan and take exercise from wearable equipment, has promoted interactive efficiency, is of value to the electric quantity of saving wearable equipment.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic diagram illustrating connection of an electronic device and a wearable device provided by an embodiment of the present application;

fig. 2 is a block diagram of a wearable device provided in an embodiment of the present application;

3A-3E illustrate schematic views of setting an exercise program on an electronic device according to an embodiment of the present application;

4A-4G illustrate schematic diagrams of displaying an exercise program on a wearable device provided by embodiments of the present application;

fig. 4H is a schematic diagram illustrating a display of a workout statistics interface on a wearable device according to an embodiment of the present application;

FIG. 5 is a flow chart of a method of exercise management provided by an embodiment of the present application;

fig. 6 is a flowchart of another exercise management method provided in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

In addition, in the description of the present application and the appended claims, relational terms such as "first" and "second", and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. For example, a first card may be referred to as a second card, which may also be referred to as a first card. It will be further understood by those within the art that the terms "comprises," "comprising," "includes" and/or "including," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. The terms "if", "if" may be interpreted to mean "at" … or "in response", depending on the context.

The basic idea of the invention is as follows: the method includes the steps that a user makes an exercise plan at an electronic device, the electronic device synchronizes the exercise plan to a wearable device, and the exercise plan comprises a plurality of segmented plans associated with different exercise days; the wearable device displays the completion condition of the exercise plan in the exercise application, and displays the plurality of segmented plans in different cards; when the exercise period associated with the card is reached, the corresponding card is distinctively displayed and the exercise start icon in the card is enabled. Clicking on the exercise start icon by the user causes the wearable device to exercise guidance and exercise tracking according to the exercise program. Therefore, the user can check the execution condition of the exercise plan in the wearable device and quickly and directly initiate plan exercise from the wearable device, the interaction efficiency is improved, and the electric quantity of the wearable device is saved beneficially.

Fig. 1 shows a schematic diagram of the connection of an electronic device with a wearable device. The electronic device 200 may include, but is not limited to, a cell phone, a tablet, a notebook, an ultra mobile personal computer, a netbook, a personal digital assistant, and the like. The electronic device 200 has strong processing capability and interaction capability, can conveniently collect personal information of a user, such as height, age, weight, sex and the like, can intelligently make an exercise plan for the user, and adjust the exercise plan according to user habits, for example, an exercise plan suitable for the user can be generated according to the personal information of the user, including the period, rest day, exercise duration of each time, exercise intensity and the like of the whole exercise plan, and the user can change the exercise day, rest day and the like according to personal preference. The electronic device 200 synchronizes the exercise program to the wearable device 100 after the exercise program formulation is completed.

Wearable device 100 may include a smart watch, smart bracelet, and the like. The wearable device 100 has a display screen to show the user an exercise program; the wearable device 100 has motion sensors and physiological sensors, and can track motion data (such as distance, speed, altitude, calorie consumption, etc.) and physiological data (such as heart rate, blood oxygen, oxygen uptake, etc.) generated during the motion of the user; the wearable device 100 may also have a speaker, motor, etc. that initiates a reminder to the user for issuing a reminder to the user when the user has not reached a desired intensity of motion or is likely to be at risk of motion.

Fig. 2 is a block diagram of a wearable device provided in an embodiment of the present application. Wearable device 100 may include one or more processors 101, memory 102, communication module 103, sensor module 104, display 105, audio module 106, speaker 107, microphone 108, camera module 109, motor 110, keys 111, indicators 112, battery 113, power management module 114, and the like. These components may communicate over one or more communication buses or signal lines.

The processor 101 is a final execution unit of information processing and program execution, and may execute an operating system or an application program to execute various functional applications and data processing of the wearable device 100. Processor 101 may include one or more processing units, such as: the Processor 101 may include a Central Processing Unit (CPU), a Graphics Processing Unit (GPU), an Image Signal Processor 100 (ISP), a sensor hub Processor or a Communication Processor (CP) Application Processor (AP), and the like. In some embodiments, processor 101 may include one or more interfaces. The interface is used to couple peripheral devices to the processor 101 to transmit instructions or data between the processor 101 and the peripheral devices.

Memory 102 may be used to store computer-executable program code, which includes instructions. The memory 102 may include a program storage area and a data storage area. The storage program area may store an operating system, an application program required for at least one function (e.g., an application program related to measuring body electricity), and the like. The data storage area may store data created during use of the wearable device 100, such as personal basic information of the user, which may include age, height, weight, sex, etc., and exercise parameters and physiological parameters of each exercise of the user, such as step number, stride, pace, type of exercise, exercise duration, heart rate, blood pressure, blood oxygen, etc. The memory may include a high-speed random access memory, and may further include a non-volatile memory, such as at least one magnetic disk storage device, a flash memory device, a universal flash memory (UFS), and the like.

The communication module 103 may enable the wearable device 100 to communicate with a network and other devices (e.g., communicate with the wearable device) via wireless communication techniques. The communication module 103 converts an electrical signal into an electromagnetic signal to transmit, or converts a received electromagnetic signal into an electrical signal. The communication module 103 includes: an antenna, an RF transceiver, one or more amplifiers, a tuner, an oscillator, a digital signal processor, a codec chipset, and so forth. The communication module 103 of the wearable device 100 may include one or more of a cellular mobile communication module, a short-range wireless communication module, a wireless internet module, a location information module. The communication module 103 may receive an exercise program from the electronic device.

The sensor module 104 is used to measure a physical quantity or detect an operation state of the wearable device. The sensors 104 may include an acceleration sensor 104A, a gyroscope sensor 104B, an air pressure sensor 104C, a magnetic sensor 104D, a biosensor 104E, a proximity sensor 104F, an ambient light sensor 104G, a touch sensor 104H, and the like. The sensor module 104 may also include control circuitry for controlling one or more sensors included in the sensor module 104.

Among other things, the acceleration sensor 104A may detect the magnitude of acceleration of the wearable device 100 in various directions. The magnitude and direction of gravity may be detected when wearable device 100 is stationary. In some embodiments, the acceleration sensor 104A may also be used to recognize the pose of the wearable device 100 to calculate the number of steps the user takes during the exercise. The acceleration sensor 104A may be combined with the gyroscope sensor 104B to monitor the stride, stride frequency, pace, etc. of the user during exercise.

The gyroscope sensor 104B may be used to determine the motion pose of the wearable device 100. In some embodiments, the angular velocity of wearable device 100 about three axes (i.e., x, y, and z axes) may be determined by gyroscope sensor 104B. In some embodiments, the acceleration sensor 104A and the gyroscope sensor 104B may be used together to identify the motion of the user, for example, the type of the motion of the user, the start and the end of the motion of the user.

The air pressure sensor 104C is used to measure air pressure. In some embodiments, wearable device 100 calculates altitude, aiding in positioning and navigation from barometric pressure values measured by barometric pressure sensor 104C.

The magnetic sensor 104D includes a hall sensor, or magnetometer, etc., which may be used to determine the user position.

The PPG sensor 104E is used to measure a physiological parameter of the user. For example, the wearable device 100 may acquire a PPG signal of the user through the PPG sensor 104E to calculate information such as the heart rate or the blood oxygen saturation of the user. In some embodiments, wearable device 100 may also include other physiological sensors for measuring physiological production of the user, such as fingerprint sensors, electrocardiogram sensors, and the like. Wearable device 100 may also acquire the heart rate of the user based on an electrocardiogram sensor. In some embodiments, the wearing state of wearable device 100 may be detected based on PPG sensor 104E. In some embodiments, the wearing state of the wearable device 100 may also be detected based on a capacitive sensor or other sensor.

The proximity sensor 104F is used to detect the presence of an object near the wearable device 100 in the absence of any physical contact. In some embodiments, the proximity sensor 104F may include a light emitting diode and a light detector.

The ambient light sensor 104G is used to sense ambient light brightness. In some embodiments, wearable device 100 may adaptively adjust display screen brightness according to perceived ambient light levels to reduce power consumption. In some embodiments, the ambient light sensor 104G may also cooperate with the proximity sensor 104F to detect whether the wearable device 100 is in a pocket to prevent inadvertent contact.

The touch sensor 104H, the touch sensor 104H is used to detect a touch operation acting thereon or nearby, and is also referred to as a "touch device". The touch sensor 104H can be disposed on the display screen 105, and the touch sensor 104H and the display screen 105 form a touch screen.

The display screen 105 is used to display a graphical User Interface (UI) that may include graphics, text, icons, video, and any combination thereof. The Display 105 may be a Liquid Crystal Display (lcd), an Organic Light-Emitting Diode (OLED) Display, or the like. When the display screen 105 is a touch display screen, the display screen 105 can capture a touch signal on or over the surface of the display screen 105 and input the touch signal as a control signal to the processor 101.

Audio module 106, speaker 107, microphone 108 provide audio functions between the user and wearable device 100, such as listening to music or talking, etc. The audio module 106 converts the received audio data into an electrical signal and sends the electrical signal to the speaker 107, and the speaker 107 converts the electrical signal into sound; or the microphone 108 converts the sound into an electrical signal and sends the electrical signal to the audio module 106, and then the audio module 106 converts the electrical audio signal into audio data.

The camera module 109 is used to capture still images or video. The camera module 109 may include an image sensor, an Image Signal Processor (ISP), and a Digital Signal Processor (DSP). The image sensor converts an optical signal into an electrical signal, the image signal processor converts the electrical signal into a digital image signal, and the digital signal processor converts the digital image signal into an image signal of a standard format (RGB, YUV). The image sensor may be a Charge Coupled Device (CCD) or a metal-oxide-semiconductor (CMOS).

The motor 110 may convert the electrical signal into mechanical vibrations to produce a vibratory effect. The motor 110 may also be used for vibration prompts for incoming calls, messages, and for touch vibration feedback.

The keys 111 include a power-on key, a volume key, and the like. The keys 111 may be mechanical keys (physical buttons) or touch keys.

The indicators 112 are used to indicate the status of the wearable device 100, for example to indicate the exercise status of the user, and may also be used to indicate battery power, messages, missed calls, notifications, and the like. Wherein feedback of the exercise status during the exercise, such as feedback of too low an exercise intensity or too high a heart rate, may be performed using one or more of the speaker 107, the motor 110, the indicator 112.

The battery 113 is used to provide power to the various components of the wearable device 100. The power management module 114 is used for managing charging and discharging of the battery, and monitoring parameters such as battery capacity, battery cycle number, battery health (whether leakage occurs, impedance, voltage, current, and temperature). In some embodiments, power management module 114 may charge wearable device 100 in a wired or wireless manner.

It should be understood that in some embodiments, wearable device 100 may be comprised of one or more of the foregoing components, and wearable device 100 may include more or fewer components than shown, or combine certain components, or split certain components, or a different arrangement of components. The illustrated components may be implemented in hardware, software, or a combination of software and hardware.

Taking the electronic device 100 as an example of a mobile phone, fig. 3A to 3E are schematic diagrams illustrating setting of an exercise program on the electronic device according to an embodiment of the present application.

As shown in fig. 3A, the electronic device 200 includes a display screen, the electronic device 200 displays a main interface (home page) 310 of the exercise application program on the display screen, the main interface 310 includes a health data card 312 and a user plan card 314, the health data card 312 is used for displaying various user exercise data and physiological data acquired by the electronic device, such as step number, calories, sleep, heart rate, and the like. The user plan card 314 provides an exercise plan functionality portal that assists the user in improving athletic performance, such as a run enhancement plan functionality column 316 that improves the user's running performance, and the user plan card may also provide a work and rest plan functionality portal that assists the user in improving health, such as a sleep health plan functionality column 318 that improves the user's sleep health. The electronic device 200 may display a plan settings interface 320 as shown in fig. 3B in response to touch input 301 to the running exercise plan function bar 316. One skilled in the art will readily recognize that exercise programs include, but are not limited to, the running training provided in the present embodiment, and exercise programs for yoga, cycling, swimming, and other activities.

Referring to fig. 3B, the program setting interface 320 provides a plurality of cards 322 corresponding to different running training directions, such as 3 km lift training, 5 km lift training, 10 km lift training, and half-stroke marathon training. For example, if the user selects 3 km lift as the training direction, the electronic device may display a plan setup interface 330 as shown in fig. 3C in response to the touch input 302, the setup interface corresponding to a training plan corresponding to 3 km lift.

As shown in FIG. 3C, the program set-up interface 330 includes a card 332 corresponding to the weekly segment of the running program, based on which card 332 the user can learn the length of time required for training (e.g., 3 weeks), and the scheduling of training in the weekly segment (e.g., the schedule of training days in the week). Electronic device 200 may display a plan settings interface 340 as shown in fig. 3D in response to touch input 303 to button 324 indicating that the user is going to a next step.

As shown in FIG. 3D, the schedule settings interface 340 displays a text element 342 illustrating the training day schedule and a training calendar view 344. A training schedule of dates for the entire training cycle may be displayed in the training calendar view 344 with different visual representations for training days and non-training days, e.g., with gray background fill for training days and without gray background fill for non-training days. As shown in fig. 3D, the training schedule was 3 trains per week, with the training days being week 2, week 4, and week 6 of the week. The plan settings interface 340 also includes a training day setting button 346, and the electronic device 200 may display a weekly training day selection interface (not shown) in response to touch input to the training day setting button, and the user may select a weekly day of the week for training, such as weekly week 1, week 3, and week 5 training, in accordance with personal preferences. Electronic device 200 may display a plan settings interface 350, as shown in fig. 3E, in response to touch input 304 to button 348, which indicates that the user is going to a next step.

As shown in FIG. 3E, the schedule settings interface 350 includes a simplified calendar view 352 and a daily schedule detail view 354. The simplified calendar view 352 shows the schedule of training days and non-training days for a week; daily plan details view 354 displays a particular training plan for a particular training day. For example, the segmented training program for the 1 st training day includes 5 exercise groups, specifically: fast walk 3 minutes, jogging 10 minutes, fast walk 3 minutes, medium speed run 3 minutes and fast walk 3 minutes, each exercise group associated with preset duration and heart rate interval requirements. Electronic device 200 may, in response to touch input to date element 356 in simplified calendar view 352, display a training program corresponding to the day, e.g., touch date "25" in daily program detail view 354, and daily program detail view 354 will display a training program corresponding to date "25". The plan settings interface 350 also includes a start plan button 358, and the electronic device 200 can synchronize the running plan to the wearable device 100 connected with the electronic device 200 in response to the touch input 305 to the start plan button 358.

Taking the wearable device 100 as an example of a smart watch, fig. 4A-4G illustrate schematic diagrams of displaying an exercise program on the wearable device 100 according to an embodiment of the present application.

As shown in fig. 4A, wearable device 100 includes a display screen that may display an application list interface 410 that includes various applications, application list interface 410 may include an exercise application icon 412, and wearable device 100 may display an exercise application interface 420 as shown in fig. 4B in response to touch input 401 to exercise application icon 412. In some embodiments, exercise application icon 412 may also be set on a home page of wearable device 100.

As shown in fig. 4B, the exercise application interface 420 includes an exercise plan card 422 and a plurality of motion tracking application cards 424 corresponding to different types of motion, and the motion tracking application cards 424 may be tracking function portal cards corresponding to outdoor running, indoor running, swimming, yoga, etc. motions. The exercise program cards 422 are associated with exercise programs synchronized by the user from the electronic device, for example, if the wearable device 100 receives a running exercise program from the electronic device 200, the running exercise program cards are displayed on the exercise application interface, if the wearable device 100 receives a swimming exercise program from the electronic device 200, the swimming exercise program cards are displayed on the exercise application interface 420, and if the wearable device 100 receives a plurality of different exercise programs from the electronic device 200, the exercise program cards 422 corresponding to the different exercise programs may be displayed on the exercise application interface 420. In some embodiments, the exercise program card 422 is displayed when the wearable device 100 is only receiving an exercise program from the electronic device 200. In this embodiment, the wearable device 100 displays a running plan card associated with the running plan in the exercise application interface 420, and the running plan card may include a reminder element that reminds of the today's planning, where the reminder element displays "today: run for 39 minutes "to remind the user to complete the program. Wearable device 100 may display exercise plan interface 430 as in fig. 4C in response to touch input 402 to exercise plan card 422.

As shown in FIG. 4C, workout plan interface 430 includes a first card 431 indicating the contents and progress of the plan and second cards 432a, 432b corresponding to the segmented plan. The first card 431 includes a plan content interface object indicating the contents of the plan and a progress indicator 433 indicating the progress of the completion of the workout plan. The plan content interface object is displayed as a 3 km elevation training plan and is used for prompting plan contents to a user. Wearable device 100 may update progress indicator 433 according to the exercise program completion progress. The planning content interface object may be a graphical interface object such as a graphic, text, animation, and the like.

In this embodiment, the exercise program is divided into a plurality of segment programs by day, and each second card 432a, 432b corresponds to 1 segment program. As will be appreciated by those of ordinary skill in the art, an exercise program may be divided into a plurality of segmented programs according to a preset period of time according to a program cycle, for example, an exercise program cycle of 1 day, the exercise program including a plurality of segmented programs divided into hours requiring a user to complete an exercise in a segmented program every hour; for another example, the exercise program period is 3 weeks, and the exercise program includes a plurality of segment programs divided by day, and the user is required to complete the exercise in the segment program every day; for another example, the exercise program has a period of 3 months, and the exercise program includes a plurality of segment programs divided by the week, and requires the user to complete the exercise in the segment program every week.

The second card 432a includes an exercise start icon 434, a status indicator 435 indicating the completion status of the segment plan, and a period indicator 436 indicating the exercise period associated with the segment plan, and in some embodiments, the second card 432a also includes an exercise period indicator indicating the exercise period requirement in the segment plan. As shown in FIG. 4C, in the present example, the running plan is divided into a plurality of segmented plans by day, with period indicator 436 indicating the date. In other embodiments, period indicator 436 may indicate an hour, week, month, etc. In some embodiments, the status indicator 435 indicates the completion of the segmentation plan corresponding to the second card 432a, and the wearable device 100 may update the status indicator 435 according to the completion of the segmentation plan corresponding to the second card 432a, for example, the user does not complete the segmentation plan, the status indicator 435 is displayed as a blank circle, and after the user completes the segmentation plan, the status indicator 435 is displayed as a hooked circle or a circle with color fill.

In fig. 4C, the workout plan interface 430 only displays 2 second cards 432a, 432b corresponding to "this day" and date "2022-8-31," and the user may toggle to display additional cards after the date "2022-8-31" by sliding the display of the wearable device 100, and the workout plan interface 430. In some embodiments, wearable device 100 only displays cards of the segmented plan for the current time period and the future time period in workout plan interface 430, and does not display cards of the segmented plan for the past time period. For example, in FIG. 4C, the workout plan interface 430 displays 2 second cards 432a, 432b corresponding to "this day" and date "2022-8-31," and does not display cards before "this day.

In the running plan interface, the second cards 432a, 432b are arranged in chronological order, and the second card 432a corresponding to "today" is displayed in a highlighted state, and the character elements "day 5/21" and "today" are displayed in bold in the second card 432a, differently from the second card 432b, and in the second card 432a, the exercise start icon 434 is in an enabled state, that is, the user can click the exercise start icon 434 to start the training guidance and the training tracking function in the running plan today. In the second card 432b, the exercise start icon is not enabled, and the user cannot click to implement the corresponding function.

Based on this, the user can start the exercise plan relevant with current period fast, also can look over the exercise plan after the quick, and wearable equipment provides the graphical interface that supplies the user to swiftly interact, has promoted interactive efficiency.

Wearable device 100 may enter a training guidance and tracking mode in response to touch input 403 by exercise start icon 434 with the user in an enabled state, sequentially displaying an exercise guidance interface and an exercise tracking interface as shown in fig. 4D-4G in chronological order of the plurality of exercise groups of the segmented plan. Although, in the present embodiment, only 2 exercise groups of exercise guidance interfaces and exercise tracking interfaces are provided, it should be understood by those skilled in the art that the exercise guidance interfaces and exercise tracking interfaces should correspond to all exercise groups in the segmented program. As in fig. 4D, the wearable device displays an exercise guidance interface 440a corresponding to the 1 st exercise group; as in fig. 4E, the wearable device displays an exercise tracking interface 450a corresponding to the 1 st exercise group; as in fig. 4D, the wearable device displays an exercise guidance interface 440b corresponding to the 2 nd exercise group; as in fig. 4E, the wearable device displays an exercise tracking interface 450b corresponding to the 2 nd exercise group.

As shown in FIG. 4D, the workout guidance interface 440a includes a type of exercise indicator 442a, a duration indicator 444a, and a heart rate interval indicator 446a. The workout guide interface 440a is configured to alert the user of the workout requirements of the 1 st workout group, the workout type indicator 442a indicates the workout type for the current workout group, the duration indicator 444a indicates the workout duration requirements for the current workout group, and the heart rate interval indicator 446a indicates the heart rate interval requirements for the current workout group. In response to reaching the preset length of time (e.g., 3 seconds), the wearable device 100 replaces the exercise guidance interface shown in fig. 4D with the exercise tracking interface 450a shown in fig. 4E.

As shown in FIG. 4E, the workout tracking interface 450a includes: motion type indicator 452a, duration remaining indicator 454a, heart rate scale 456a, real-time motion data interface object 458a. The exercise type indicator 452a indicates the type of exercise of the current exercise group, and the remaining duration indicator 454a indicates the remaining duration of the current exercise group. The heart rate scale 456a includes a first graphical interface object 455a indicating a heart rate interval requirement and a second graphical interface object 457a indicating a current heart rate. Wearable device 100 may detect the user's heart rate during the exercise and update second graphical interface object 457a according to the user's current heart rate. The real-time athletic data interface object 458a indicates athletic data and physiological data acquired by the wearable device 100 during the user's session, such as heart rate, calories, distance traveled, pace, and so forth. In some embodiments, wearable device 100 may issue an alert, which may be an audible alert or a vibratory alert, in response to the user's current heart rate not meeting the heart rate interval requirements of the exercise group.

In response to reaching the preset length of time (e.g., 3 minutes) corresponding to the 1 st exercise group, the wearable device 100 replaces the exercise tracking interface 450a shown in fig. 4D with the exercise guidance interface 440b shown in fig. 4F.

As shown in fig. 4F, wearable device 100 displays exercise guidance interface 440b corresponding to the 2 nd exercise group, exercise guidance interface 440b including exercise type indicator 442b, duration indicator 444b, and heart rate interval indicator 446b associated with the 2 nd exercise group. In response to reaching the preset length of time (e.g., 3 seconds), wearable device 100 replaces exercise guidance interface 440b shown in fig. 4F with exercise tracking interface 450b shown in fig. 4G. As shown in FIG. 4G, the workout tracking interface 450b includes: motion type indicator 452b, duration remaining indicator 454b, heart rate scale 456b, and real-time motion data interface object 458b. The exercise type indicator 452b indicates the type of exercise of the current exercise group, and the remaining duration indicator 454b indicates the remaining duration of the current exercise group. The heart rate scale 456b includes a first graphical interface object 455b indicating a heart rate interval requirement and a second graphical interface object 457b indicating a current heart rate. Wherein in fig. 4G, since the 2 nd workout group has a different heart rate interval requirement than the 1 st workout group, the first graphical interface object 455b indicating the heart rate interval requirement has a different position in the heart rate scale 456b than in fig. 4E. That is, wearable device 100 may, in response to entering a different exercise group, update the first graphical interface object according to the heart rate interval requirements associated with the exercise group.

As shown in fig. 4D to fig. 4G, the wearable device displays the exercise guidance interfaces and the exercise tracking interfaces of the exercise groups in a time sequence, and after the exercise guidance interfaces and the exercise tracking interfaces of all the exercise groups are displayed or when the user operates the wearable device to finish the exercise in advance, the wearable device displays an exercise statistics interface 460 as shown in fig. 4H.

As shown in FIG. 4H, workout statistics interface 460 may include a completion indicator 462, a compliance indicator 464, a duration indicator 466, a movement distance indicator 468, and a calorie indicator 469, among others. Where the completion indicator 462 represents the user's completion, which may be determined based on the actual length of the user's workout and the length of the segmented plan. For example, if the length of time required for the segmented program is 39 minutes and the actual length of time for the user exercise is 31 minutes, the user exercise is completed by 80%. The compliance indicator 464 is used to indicate heart rate compliance during a user exercise, and may be determined based on the heart rate during the user exercise and the heart rate interval requirements associated with each exercise group.

Specifically, the heart rate conformity can be determined according to three conditions that the heart rate of the user is within the recommended heart rate interval, the heart rate of the user is higher than the recommended heart rate interval and the heart rate of the user is lower than the recommended heart rate interval. When the average heart rate of the user is within the recommended heart rate interval within a preset time (for example, 5 seconds), the heart rate coincidence Hrate (i) within the preset time is 100%; when the average heart rate of the user is higher than the recommended heart rate interval within a preset time (for example, 5 seconds), the calculation formula of the heart rate compliance within the preset time is as follows: hrate (i) =100% - (average heart rate-H1)/(Hmax-H1), hmax representing the user's maximum heart rate, H1 representing the maximum of the suggested heart rate interval; when the average heart rate of the user is lower than the recommended heart rate interval within a preset time (for example, 5 seconds), the calculation formula of the heart rate conformity within the preset time is as follows: htate (i) =100% - (average heart rate-H3)/(H2-H3), H2 denotes the minimum value of the suggested heart rate interval, and H3 denotes the resting heart rate of the user. The total heart rate compliance of the present segment plan is the average of the heart rate compliance per minute, e.g. 39 minutes for a user exercise session, then the total heart rate compliance Hrate = (Hrate 1+ Hrate1+ Hrate3 \8230; hrate 39)/39.

In some embodiments, in response to the exercise completion being greater than a first preset threshold and the heart rate compliance being greater than a second preset threshold, the wearable device updates the status indicator 435 as in fig. 4C; in response to the exercise completion being less than the first preset threshold or the heart rate compliance being less than the second preset threshold, the wearable device does not update the status indicator 435 as in fig. 4C. For example, if the user has performed exercise for only a short time (e.g., 10 seconds) resulting in a low completion, or if the user has heart rate compliance of 30% or less, it may be because the user has performed a wrong exercise trigger or has abandoned the exercise for some other reason, and thus if the exercise completion or heart rate compliance is too small, the status indicator is not updated and considered as incomplete, thereby avoiding a wrong exercise plan completion due to a wrong exercise by the user and early abandonment.

Fig. 5 is an exercise management method provided in an embodiment of the present application, where the method is applicable to the wearable device shown in fig. 2, and the exercise management method includes:

s501, an exercise plan sent by the electronic equipment is received, wherein the exercise plan comprises a plurality of segmented plans divided according to a preset time interval. Specifically, electronic equipment such as cell-phones, computer etc. have bigger display screen and more convenient input mode, can the convenience of customers swift exercise plan of setting. The exercise program is an exercise program for a long period of time and may be divided into a plurality of segment programs according to a preset time period. For example, an exercise program is a one month exercise program that includes a piecewise program for each day or each week. After the user finishes the exercise plan at electronic equipment, the exercise plan can be sent to wearable equipment through short-distance communication modes such as bluetooth. As shown in fig. 3A to 3E, the user can set the exercise program in the mobile phone, and send the exercise program to the wearable device bound to the mobile phone through bluetooth after the setting is completed, and the wearable device manages and tracks the exercise program.

S502, an exercise plan interface is displayed, the exercise plan interface comprises a first card indicating plan content and progress and a second card corresponding to the segmented plan, and the second card at least comprises an exercise starting icon, a state indicator indicating the completion state of the segmented plan and a period indicator indicating the exercise period associated with the segmented plan.

In particular, the wearable device, upon receiving the exercise program, displays an exercise program interface in response to a user action to view the exercise program. In some embodiments, the wearable device has an exercise application, and in response to a user operation to open the exercise application, displays an exercise program function entry in an exercise application interface (e.g., fig. 4B), and in response to a user operation to view an exercise program, displays an exercise program interface (e.g., fig. 4C) that includes a first card indicating program content and progress and a second card corresponding to a segmented program. The first card may include a progress indicator indicating a progress of the workout plan completion.

Since the exercise plan includes a plurality of segment plans, the second cards corresponding to the segment plans are also provided in plurality, and since each segment plan is associated with a different time period, the plurality of second cards may be arranged in chronological order in the exercise plan interface, with the second cards corresponding to segment plans closer to the current time being ranked farther forward and the second cards corresponding to segment plans farther away from the current time being ranked farther backward. So that the user can quickly view the exercise program that has recently been required to be executed.

And S503, in response to the exercise time interval associated with the second card being reached, the second card is displayed in a distinguishing mode, and the exercise starting icon in the second card is controlled to be in an enabling state.

Specifically, when the exercise time period associated with a certain second card of the plurality of second cards arrives, the second card may be distinguished from other second cards in a highlighted form, a protruding form, a different color, or a manner of displaying graphical interface objects in the second card differently. Generally, the plurality of second cards are sorted according to the time sequence, so that when the exercise time associated with the second card with the top sequence is reached, the second card with the top sequence is displayed in a distinguishing way.

And when a certain second card-associated exercise period is reached, the wearable device controls the exercise starting icon in the second card to be in an enabled state, that is, the user can click the exercise starting icon to enter exercise guidance and exercise tracking related functions. For a second card that does not reach its associated exercise period, the wearable device does not enable the exercise start icon in that card, avoiding user misoperation. In particular, the workout plan may not be associated with each session, and the distinctive display and enabling of the workout start icon may provide a more intuitive indication to the user as to whether the time of the respective segmented plan has been reached and avoid inadvertent operation. For example, an exercise program requires exercise only on certain days of the week, while other days require the user to rest; as another example, an exercise program only requires the morning and evening of a day to exercise, while other times require rest.

From this, wearable equipment can show exercise plan execution progress and adopt different cards to show a plurality of segmentation plans in the exercise plan, and the user can be in wearable equipment audio-visual exercise plan of looking over to when arriving the exercise period that certain card corresponds, show this card in the difference, and the exercise of controlling this card starts the icon and is in the enabling state, and the user can be swift directly initiate the plan in the wearable equipment and take exercise, has promoted interactive efficiency, is of value to the electric quantity of saving wearable equipment.

In some embodiments, the exercise management method further comprises: in response to an end of the workout session associated with the second card, the second card is dismissed from being displayed in the workout plan interface. In particular, for example in fig. 4C, at the end of today, the wearable device will cancel the display of the second card associated with today in the exercise application interface. Therefore, the user can only pay attention to the exercise program to be performed at present or in the future, and the interaction efficiency is improved.

In some embodiments, the exercise management method further comprises: the status indicator is updated in response to completion of the segmentation plan associated with the second card. Specifically, the wearable device may update the status indicator according to a segment plan completion condition corresponding to the second card, for example, the user does not complete the segment plan, the second status indicator is displayed as a blank circle, and after the user completes the segment plan, the second status indicator is displayed as a hooked circle or a circle filled with a color. Thus, the user can be made aware of the completion of the segmentation plan. The completion of the segmented plan may refer to the user meeting the requirements of the workout plan, and may be confirmed upon the completion of the display of the corresponding workout guideline interface and workout tracking interface upon the click of the workout start icon.

Fig. 6 is an exercise management method provided in an embodiment of the present application, where the method is applicable to the wearable device shown in fig. 2, and the exercise management method includes:

s601, receiving an exercise plan sent by the electronic equipment, wherein the exercise plan comprises a plurality of segmented plans divided according to a preset time interval.

S602, an exercise plan interface is displayed, the exercise plan interface comprises a first card indicating plan content and progress and a second card corresponding to the segmented plan, and the second card at least comprises an exercise starting icon, a state indicator indicating the completion state of the segmented plan and a period indicator indicating the exercise period associated with the segmented plan.

S603, in response to the fact that the exercise time interval related to the second card is reached, the second card is displayed in a distinguishing mode, and the exercise starting icon in the second card is controlled to be in an enabling state.

S604, responding to touch input of the exercise starting icon in the enabled state, sequentially displaying exercise guide interfaces and exercise tracking interfaces of a plurality of exercise groups in the segmented plan according to preset time, wherein the exercise guide interfaces comprise graphical interface elements indicating the motion types, exercise duration requirements and heart rate interval requirements of the exercise groups, the exercise tracking interfaces comprise heart rate scales, and the heart rate scales comprise first graphical interface objects indicating the heart rate interval requirements and second graphical interface objects indicating the current heart rate.

The segmented plan may include a plurality of exercise groups, for example, one running plan may include a plurality of exercise groups such as fast walking, slow running, fast walking, medium speed running, and fast walking, and each exercise group has a chronological order. For example, fig. 4C-4E show 2 exercise groups, i.e., fast walk and jog, with the user taking the fast walk first and then the jog. Each exercise group corresponds to an exercise guidance interface for prompting the user for exercise type, exercise duration, and heart rate interval requirement (see fig. 4D and 4F) for the exercise of the group, and an exercise tracking interface for displaying the user's current monitoring data (see fig. 4E and 4G), such as heart rate, time, calories, exercise distance, and the like. And the exercise guidance interfaces and the exercise tracking interfaces of the plurality of exercise groups are displayed according to the exercise time sequence of each exercise group.

Specifically, adopt heart rate scale to show the interval requirement of heart rate and current heart rate in the exercise tracking interface, whether the user of being convenient for more quick audio-visual understanding current heart rate accords with the exercise requirement.

S605, in response to entering a different exercise group, updating the first graphical interface object according to the heart rate interval requirement associated with the exercise group. Referring to fig. 4E and 4G, the heart rate interval requirements for the fast and slow running exercise groups are different, and the first graphical interface object representing the heart rate interval requirements in the heart rate scale has a different position in the corresponding exercise tracking interface.

S606, detecting the real-time heart rate of the user when the exercise tracking interface is displayed, and updating the second graphical interface object according to the real-time heart rate.

And S607, responding to the completion of the display of the exercise guide interfaces and the exercise tracking interfaces of the plurality of exercise groups, displaying an exercise statistical interface, wherein the exercise statistical interface comprises a completion indicator for indicating the exercise completion and a conformity indicator for indicating the heart rate conformity. Specifically, after all exercise guidance interfaces and exercise tracking interfaces of a plurality of exercise groups planned in a segmented manner are displayed, the wearable device displays an exercise statistical interface, and the exercise statistical interface is used for displaying all monitoring data statistics of the user in the exercise process, such as exercise completion degree, heart rate conformity degree, exercise duration, movement distance, calorie consumption and other parameters. The exercise completion degree is determined according to the actual exercise duration of the user and the duration requirement of the sectional plan; the heart rate conformity is determined according to the heart rate condition during the exercise of the user and the heart rate interval requirement associated with each exercise group.

S608, in response to the exercise completion degree being greater than a first preset threshold and the heart rate coincidence degree being greater than a second preset threshold, updating the status indicator in the second card.

Specifically, when the exercise completion degree and the heart rate coincidence degree of the user both exceed the preset threshold values, the user is considered to complete the corresponding segmented plan, and the display state of the state indicator in the second card is updated from the incomplete state to the complete state. For example, the user does not complete the segmentation plan, the second status indicator is displayed as a blank circle, and after the user completes the segmentation plan, the second status indicator is displayed as a hooked circle or a circle with color fill. Those skilled in the art will appreciate that the status indicator is not updated in response to the workout completion being equal to or less than the first preset threshold or the heart rate compliance being equal to or less than the second preset threshold. Thus, it is possible to prevent the exercise program from being completed erroneously due to the user's erroneous operation into the exercise program function or early abandonment.

It will be appreciated by persons skilled in the art that the above-described methods are merely illustrative and that the order of the various steps does not constitute a limitation of the invention.

Exemplary embodiments of the present application also provide a computer storage medium including computer instructions, which, when executed on a communication terminal, cause an electronic device to execute some or all of the steps of the aforementioned medal management method.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method can be implemented in other ways. The apparatus embodiments described above are merely illustrative, and for example, the flowchart and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of apparatus, methods and computer program products according to various embodiments of the present invention. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

The functions, if implemented in the form of software functional modules and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention, which is substantially or partially contributed by the prior art, may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An exercise management method applied to wearable equipment is characterized by comprising the following steps:

receiving an exercise plan sent by an electronic device, wherein the exercise plan comprises a plurality of segmented plans divided according to a preset time period;

displaying an exercise plan interface including a first card indicating plan content and progress and a second card corresponding to the segmented plan, the second card including at least an exercise start icon, a status indicator indicating a completion status of the segmented plan, and a period indicator indicating an exercise period associated with the segmented plan;

in response to reaching the exercise period associated with the second card, the second card is distinctively displayed and the exercise start icon in the second card is controlled to be in an enabled state.

2. The method of claim 1, further comprising:

canceling display of the second card in the workout plan interface in response to an end of a workout session associated with the second card.

3. The method of claim 1, further comprising:

updating the status indicator in response to completion of a segmentation plan associated with the second card.

4. The method of claim 1, wherein displaying an exercise plan interface comprises:

arranging the plurality of second cards in chronological order in the workout plan interface.

5. The method of claim 1, further comprising:

in response to a touch input to the exercise start icon in an enabled state, sequentially displaying exercise guidance interfaces and exercise tracking interfaces of a plurality of exercise groups in the segmented plan at preset times, wherein the exercise guidance interfaces comprise graphical interface elements indicating a motion type, an exercise duration requirement and a heart rate interval requirement of the exercise group, the exercise tracking interfaces comprise a heart rate scale, and the heart rate scale comprises a first graphical interface object indicating the heart rate interval requirement and a second graphical interface object indicating a current heart rate;

in response to entering a different exercise group, updating the first graphical interface object according to a heart rate interval requirement associated with the exercise group;

detecting a user's real-time heart rate while displaying an exercise tracking interface, and updating the second graphical interface object according to the real-time heart rate.

6. The method of claim 5, further comprising:

in response to completion of the display of the workout guideline interface and the workout tracking interface of the plurality of workout groups, displaying a workout statistics interface including a completion indicator indicating completion of the workout and a compliance indicator indicating heart rate compliance.

7. The method of claim 6, further comprising:

updating the status indicator in response to the exercise completion being greater than the first preset threshold and the heart rate compliance being greater than the second preset threshold.

8. The method of claim 6, wherein the exercise completion is determined based on an actual length of time a user exercises and a length of time requirement of the segmented plan; the heart rate conformity is determined according to the heart rate condition of the user in the exercise process and the heart rate interval requirement associated with each exercise group.

9. A wearable device comprising a processor, a memory, wherein the memory has stored thereon a computer program operable on the processor, the processor when executing the computer program implementing the steps of the method according to any of claims 1 to 8.

10. A computer storage medium storing a computer program, characterized in that the computer program, when executed by a processor, implements the steps of the method according to any one of claims 1 to 8.

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