CN112802226A - Directional motion auxiliary system and method - Google Patents

Abstract

The invention discloses a directional movement auxiliary system and a method, which belong to the field of sports goods, cancel a point-to-sign device and a finger card, adopt the existing integrated device to carry out self-positioning card punching, and can solve the problems of high cost, strong speciality, high threshold, non-intuition and inconvenience of the existing directional movement auxiliary system in a low-cost, convenient, safe, visualized and efficient way; the system comprises a server and a terminal with a display, wherein the terminal is provided with a communication unit and a navigation module for recording mobile geographic position coordinates, the terminal is in communication connection with the server, and the mobile geographic position coordinates, time and identifiers of the navigation module can be sent to the server through the communication unit; the server is provided with road sign modules for marking geographic positions, each road sign module has unique geographic position information, the server stores identifier information corresponding to the geographic position information marked by each road sign module, and the road sign modules are used for exciting the server to record mobile geographic position coordinates of the navigation module; the terminal and/or the server are provided with a health monitoring unit, a safety early warning unit and an alarm.

Description

Directional motion auxiliary system and method

Technical Field

The invention belongs to the field of sports goods, and particularly relates to a directional exercise assisting system and a directional exercise assisting method.

Background

The statements herein merely provide background information related to the present disclosure and may not necessarily constitute prior art.

Directional motion (orientation) refers to a motion in which the sporter reaches several checkpoints marked simultaneously on a map and in the field in as short a time as possible by means of the map and a compass. The player in the directional movement may be an individual or a team of more than two persons, and has a standard directional Course (Course) including a Start point (Start, indicated by a triangle), an end point (Finish, indicated by a double circle) and a series of point marks (Controls, indicated by a single circle). In actual terrain, an alternate orange-white dot marker indicates the point location that the player should find, and to confirm the visit, the player must punch a card at each dot marker and different punches different pinholes (or different electronic labels).

In the existing directional movement auxiliary system, a complete card punching system is used, the card punching is realized mainly by a finger card and a point-to-tag device, and the card punching principle is as follows: when a sporter carries a finger card to enter the vicinity of the point-to-tag device, the point-to-tag device enters a pre-card-punching state, and when the sporter carries the finger card to pass the vicinity of the point-to-tag device, the point-to-tag device generates card-punching information and sends the card-punching information to a server to complete card-punching records.

The inventors have found that existing directional motion assistance systems have the following disadvantages:

1) the cost is high, the equipment cost, the labor cost, the time cost and the training cost are mainly reflected, for the equipment cost, a plurality of devices are arranged in the existing field, the cost is high, the existing devices comprise a starting point, a terminal point, a main station, a time synchronizer, a zero clearing device and other devices, a plurality of electronic point-to-point devices, a plurality of finger cards and a thermal printer, and the whole set of devices is expensive; for the cost of manpower, the price of the point stick device is high, even if the point stick device is locked, the rope is easy to lose as the rope is frequently cut off, and the person needs to watch the point stick device to prevent the loss, so that the cost of manpower is high; for time cost, besides the one hundred meters of orientation of the track and field, the short-distance and long-distance movement wastes time for drawing a professional map due to the large field, and the preparation time is too long due to the complicated placing and recycling process of the point-to-tag device and the large field; for the training cost, the equipment is prevented from being stolen during training, and in addition, the training cost is also high due to high equipment cost, high labor cost and high time cost;

2) the specialization is strong, for example: a professional map is needed to participate in the sport, the map is complex to manufacture, strong in speciality and difficult to popularize; another example is: the field is set up complicatedly, the professional technical requirement is stronger, difficult to popularize, employ inconveniently, set up 12-20 intermediate task points in formal match or training often, every point has an electronic point to sign the device, get to the point and check the card, the sporter needs to be from A point to B point, B point has apparatuses (electronic or manual); the requirement on the graph recognition capability of people for placing and recovering the markers is high, errors are prone to occur, and development of movement is affected;

3) the threshold is high, and due to the high cost and strong specialization, and the variable developing environment of the directional movement, the directional movement can be developed in the environments of track and field fields, campuses, parks, cities, highways, mountains and the like, and the risk cannot be controlled, so that the threshold participating in the directional movement is also high;

4) inconveniences, such as: the sporter needs to hold the compass and the map when performing directional movement, and the movement is inconvenient; for another example: the number of the devices is large, and the devices are inconvenient to place and use;

5) the system is not intuitive, cannot intuitively present the competition route and the player track after the competition and training are carried out and finished, and cannot count the player scores in real time.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a directional movement auxiliary system and a directional movement auxiliary method, wherein a point-to-sign device and a finger card are omitted, the existing integrated device is adopted for self-positioning card punching, and the problems of high cost, strong specialization, high threshold, non-intuition and inconvenience of the existing directional movement auxiliary system can be solved in a low-cost, convenient, safe, visualized and efficient mode.

In order to achieve the purpose, the invention is realized by the following technical scheme:

in a first aspect, the technical scheme of the invention provides a directional motion auxiliary system, which comprises a server and a terminal with a display, wherein the terminal is provided with a communication unit and a navigation module for recording mobile geographic position coordinates; the server is provided with road sign modules for marking geographic positions, each road sign module has unique geographic position information, the server stores identifier information corresponding to the geographic position information marked by each road sign module, and the road sign modules are used for exciting the server to record mobile geographic position coordinates of the navigation module; the terminal and/or the server are provided with a health monitoring unit, a safety early warning unit and an alarm.

In a second aspect, the technical solution of the present invention further provides a directional exercise assisting method, where, using the directional exercise assisting system as described in the first aspect, an athlete wears the terminal, and when the athlete approaches the geographic location information marked by the landmark module, the server records the mobile geographic location coordinate of the navigation module, and marks the mobile geographic location coordinate into an electronic map stored in the server, and simultaneously, an identifier of the navigation module corresponds to member information in the receiving end list, and the member information corresponds to the mobile geographic location and the geographic location of the landmark module.

Compared with the existing contact type card punching, the self-positioning card punching is carried out by adopting the existing integrated device, and the principle of realizing the card punching is as follows:

the navigation module continuously keeps communication with the server to upload the geographic position information of the navigation module in real time, and the server can position the coordinates (lon, lat) of a person wearing the navigation module based on the position of the current navigation module;

then, based on the coordinate points provided by the navigation module, the server only needs to judge whether the points are in the area designated by the landmark module, if so, the card punching is successful, otherwise, the card punching is invalid.

For the geometric area, the invention determines the range of a circle according to the central position, and only needs to construct an equation of the circle at the server end according to the central position and judge the distance between the coordinate (lon, lat) of the person wearing the navigation module and the central point.

(x-lon)²+(y-lat)²≤r²；

In the formula, x is an x coordinate of the circle center, y is a y coordinate of the circle center, and r is the radius of the circle.

The technical scheme of the invention has the following beneficial effects:

1) compared with the principle of the existing directional movement auxiliary system, the invention omits a point-to-point device and a finger card, and various modules and units worn by a sporter can be integrated together, or the existing integrated device (integrated with the needed module) is directly adopted, so that the articles needing to be arranged can be reduced, the directional movement cost is reduced, and meanwhile, the convenience is provided for the sporter and a user.

2) In the auxiliary system and the method provided by the invention, the terminal is in communication connection with the server, the card punching is carried out through the real-time geographic position coordinate information provided by the navigation module, the convenience and the rapidness are realized, the card punching result can be confirmed at low cost, and meanwhile, the real-time communication characteristic of the positioning information is convenient for theft prevention, so that the training cost is reduced.

3) In the auxiliary system provided by the invention, the terminal is provided with the communication unit and the navigation module, the terminal is also in communication connection with the memory, the directional movement electronic map is stored in the memory, the display of the terminal is configured to display the directional movement electronic map, the map used by directional movement can be provided for a sporter through the display, the sporter is prevented from manually drawing, and the specialty is reduced; the sporter can directly use the electronic map in the directional movement process, a dangerous area is marked on the electronic map, and the safety early warning unit of the navigation module and/or the server is combined, so that the geographical environment risk prompt can be conveniently carried out on the electronic map, and the sporter can be reminded through the warning device.

4) In the auxiliary system and the method provided by the invention, the terminal and/or the server are provided with the health monitoring unit and the alarm, the health condition of the sporter can be detected through the health monitoring unit, the self health risk of the sporter is prompted through the alarm, and the health state of the sporter can be conveniently acquired by a host, so that the risk and the threshold of directional movement are reduced.

5) In the auxiliary method provided by the invention, the server evaluates the specific situation of the sporter through the information provided by the navigation module, and the cooperation of the electronic map and the navigation module can visually present the directional movement route and track of the sporter, so that the player performance is counted in real time, and the training level is improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate exemplary embodiments of the invention and together with the description serve to explain the invention and not to limit the invention.

FIG. 1 is a block diagram of a system architecture according to one or more embodiments of the invention.

Detailed Description

It is to be understood that the following detailed description is exemplary and is intended to provide further explanation of the invention as claimed. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the invention. As used herein, the singular forms "a", "an", and/or "the" are intended to include the plural forms as well, unless the invention expressly state otherwise, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof;

for convenience of description, the words "up", "down", "left" and "right" in the present invention, if any, merely indicate correspondence with the directions of up, down, left and right of the drawings themselves, and do not limit the structure, but merely facilitate the description of the invention and simplify the description, rather than indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Term interpretation section: the terms "mounted," "connected," "fixed," and the like in the present invention are to be understood in a broad sense, and for example, the terms "mounted," "connected," and "fixed" may be fixed, detachable, or integrated; the two components can be connected mechanically or electrically, directly or indirectly through an intermediate medium, or connected internally or in an interaction relationship, and the terms used in the present invention should be understood as having specific meanings to those skilled in the art.

As introduced in the background art, aiming at the defects in the prior art, the invention aims to provide a directional motion auxiliary system and a directional motion auxiliary method, wherein a point-to-sign device and a finger card are eliminated, the existing integrated device is adopted for self-positioning card punching, and the problems of high cost, strong professional performance, high threshold, non-intuition and inconvenience of the existing directional motion auxiliary system can be solved in a low-cost, convenient, safe, visual and efficient manner.

Example 1

In a typical implementation manner of the present invention, as shown in fig. 1, this embodiment discloses a directional exercise assisting system, which includes a server and a terminal with a display, where the terminal is installed with a communication unit and a navigation module that records a mobile geographic position coordinate, the terminal is in communication connection with the server, and the mobile geographic position coordinate, time of the navigation module, and an identifier of the navigation module can be sent to the server through the communication unit; the server is provided with road sign modules for marking geographic positions, each road sign module has unique geographic position information, the server stores identifier information corresponding to the geographic position information marked by each road sign module, and the road sign modules are used for exciting the server to record mobile geographic position coordinates of the navigation module; the terminal and/or the server are provided with a health monitoring unit, a safety early warning unit and an alarm.

The navigation module can generate mobile geographic position coordinates according to the position of the terminal.

The terminal is also in communication connection with a memory, the memory is internally stored with an electronic map of directional movement, and a display of the terminal is configured to display the electronic map of directional movement stored in the memory.

The warning device is a loudspeaker and/or an electrode and/or a prompting lamp.

In this embodiment, adopt wearable equipment to realize the function of terminal, navigation module and the attention device that has the display, for example, use intelligent wrist-watch, intelligent wrist-watch has display screen, GPS orientation module and vibrations motor, and then the display screen of intelligent wrist-watch corresponds the display at terminal in this embodiment, and GPS orientation module corresponds the navigation module in this embodiment, and the vibrations motor corresponds the attention device in this embodiment. Further, the terminal with the display in this embodiment may correspond to the smart watch itself.

It will be appreciated that a smart watch typically also includes a processor connected to the display screen, the GPS location module, and the shock motor.

Further explaining the embodiment by taking the smart watch as an example, the navigation module can send the geographical location information to the server in real time in the moving process, that is: the GPS positioning module can be connected with the server through a communication module of the intelligent watch; wherein, each GPS positioning module has a unique identifier, and in the prior art, each GPS positioning module can write an ID as the unique identifier.

The server stores identifier information corresponding to each GPS location module to facilitate identification of each athlete, and a database may be disposed within the server, with the ID of each GPS location module in the database mapping a number assigned to a particular athlete, such as: the player a is assigned the number 01, and 01 corresponds to the ID 1.

The intelligent watch serving as the terminal with the display is provided with the GPS positioning module, the GPS positioning module can generate a mobile geographic position coordinate according to the position of the intelligent watch, and the mobile geographic position coordinate and time of the GPS positioning module can be sent to the server through the communication unit.

The smart watch is also in communication connection with a memory, and it can be understood that the memory is a ROM of the smart watch or an external memory connected with the smart watch, the memory stores an electronic map of directional movement, and the display can display the electronic map of directional movement. It will also be appreciated that the smart watch may also be equipped with compass software or plug-ins and display the directional electronic map simultaneously with the compass plug-ins.

The alarm in the embodiment is a vibration motor, and can provide an alarm function by a skin stimulation method; in other embodiments, the warning indicator may also be in various forms such as a speaker and/or an electrode and/or a warning light, and is not limited to the forms listed in this embodiment.

The server also stores a plurality of fixed geographical position coordinates corresponding to the signal sensing units, and the road sign module excites the server to record the mobile geographical position coordinates of the navigation module when the fixed geographical position coordinates are consistent with or within an error allowable range of the mobile geographical position coordinates generated by the navigation module.

It is understood that the signpost module is a hardware module or a software module for specifying fixed and unique geographic location information.

In this embodiment, it should be noted that the allowable error range is a circle range defined by taking a single fixed geographic position coordinate as a center of a circle and taking a certain distance (e.g., 3m) as a radius; it is understood that in other embodiments, the allowable error range has other values, which are not described herein.

The navigation module continuously keeps communication with the server to upload the geographic position information of the navigation module in real time, and the server can position the coordinates (lon, lat) of the person wearing the navigation module based on the position of the current navigation module;

then, based on the coordinate points provided by the navigation module, the server only needs to judge whether the points are in the area designated by the landmark module, if so, the card punching is successful, otherwise, the card punching is invalid.

For the above "geometric area", in this embodiment, a circle range is determined according to the center position, and only an equation of a circle needs to be constructed at the server end according to the center position, and the distance between the coordinate (lon, lat) of the person wearing the navigation module and the center point of the circle is determined.

(x-lon)²+(y-lat)²≤r²；

In the formula, x is an x coordinate of the circle center, y is a y coordinate of the circle center, and r is the radius of the circle.

The server comprises a card punching request generating unit which is used for generating a receiving end list. The receiving end list comprises a group of member information participating in directional movement, and the identifier information corresponds to each member information.

It is understood that the card punching request generating unit may be software or a module in the server, the receiving end list may be a database that can be called by the server, the database stores numbers of the sporters, the ID of each GPS positioning module maps a number, and the number is assigned to a specific sporter, for example: the player a is assigned the number 01, and 01 corresponds to the ID 1.

The server is provided with a timer, the timer in the server has a time setting function, and when the mobile geographic position information sent to the server by the navigation module changes within a set time, the timer of the server starts to time the signpost module corresponding to the navigation module.

In yet another embodiment, the smart watch may also be replaced with smart glasses.

In yet another embodiment, the smart watch may also be replaced with a smart bracelet.

In yet another embodiment, the smart watch may also be replaced with a smart phone.

It is understood that the smart watch, the smart glasses, the smart bracelet, and the smart phone are all devices integrated with the required modules, and the devices integrated with the required modules are not limited to the forms listed in the present embodiment.

Example 2

In a typical implementation manner of the present invention, a directional exercise assisting method is further provided, where, using the directional exercise assisting system as described in embodiment 1, a sporter wears a terminal, and when the sporter approaches geographic position information marked by a road marking module, a server records a mobile geographic position coordinate of a navigation module; and the mobile geographic position coordinate is marked in an electronic map stored in a server, the identifier of the navigation module is corresponding to member information of the receiving end list, and the member information corresponds to the mobile geographic position and the geographic position of the road sign module, so that the card punching condition of the sporter is judged and verified in the server.

In the directional movement, in a certain area, at intervals, "signposts" (i.e., the geographic positions marked by the signpost modules) are arranged, and in this embodiment, the smart watch serving as the navigation module in embodiment 1 is used for self-positioning card punching.

Taking the smart watch in the embodiment 1 as an example, a sporter wears the smart watch, and when the sporter approaches the geographical position information marked by the road sign module on the way, the server records the mobile geographical position coordinates of the smart watch; the mobile geographic position coordinates are marked in an electronic map stored in a server, the ID of the GPS positioning module corresponds to member information of a receiving end list, the member information corresponds to the mobile geographic position, the marking point card punching condition and the accurate geographic position coordinates of the sportsman can be checked from the server, and then the card punching condition of the sportsman is judged.

It is understood that the landmark module in this embodiment is actually a set of geographic location information stored in the server and located in the directional movement area, and since the navigation module has the capability of detecting the current geographic location information in real time, when the geographic location information detected by the navigation module coincides with or is close to the geographic location information marked by the landmark module, the server is activated, and the server records the mobile geographic location coordinates of the current navigation module.

Before the directional movement starts, when the mobile geographic position information sent to the server by the navigation module changes within the set time, the timer of the server starts to time the corresponding navigation module, and simultaneously, the identifier of the navigation module corresponds to the member information of the receiving terminal list. Namely: the sporter starts running, and the server automatically starts timing according to the movement track.

The electronic map stored in the server is marked with a dangerous area, the dangerous area comprises a cliff, a water area, a geographical environment or an animal and plant distribution area which can cause harm to a user such as a bush and a conifer forest which are difficult to pass through, when the mobile geographical position information sent to the server by the navigation module is located in the dangerous area or a warning area where a motion accident or a safety accident happens, the server sends out an alarm signal, and a warning signal is sent to a sporter through a warning device, so that the risk of motion damage and the motion accident is reduced.

It is understood that the electronic map marked with the dangerous area may be named a safety precaution unit.

In another embodiment, the navigation module in embodiment 1 may also store an electronic map marked with a dangerous area, and the navigation module automatically activates the alarm when located in the dangerous area.

In a further embodiment, an electronic map marked with dangerous areas is stored in both the server and the navigation module.

In addition, the system is provided with an automatic error correction function and can be started by self selection. If the route is closed, automatic feedback is carried out after the route is finished; if the system is started, the geographical position information marked by each road sign module can prompt correct or wrong. More specifically, when the automatic error correction function is used, whether to be turned on is selected according to the requirements of specific motion situations, for example: during interesting activities, whether the automatic error correction function needs to be started or not can be selected according to different purposes or environments or corresponding designs; for another example: and in the process of training with different purposes, selecting whether the automatic error correction function needs to be started according to the different purposes.

Example 3

In a typical implementation manner of the present invention, a directional exercise assisting method is further provided, where the directional exercise assisting system described in embodiment 1 is used, and on the basis of embodiment 2, health risk prompting functions of an exerciser and a user are added, and a heart rate monitoring function and/or a blood oxygen monitoring function of the smart watch in embodiment 1 are used, so that a heart rate of the user can be monitored, and when an excessively high heart rate and an excessively low heart rate are detected, the user is reminded in time to detect a physical state of the user; if the heart rate is not changed for a long time, judging that the user falls down, and calling for help promptly according to the physical condition of the user; the blood oxygen concentration can be monitored, and the user can be reminded of detecting the body state in time when the blood oxygen concentration is too high or too low.

Under the condition that the external conditions are suitable, the method can be applied to long-distance sports such as directional cross country, marathon, high altitude mountain climbing, urban long distance running and highway long distance running.

It can be understood that a unit in the smart watch that implements the heart rate monitoring function and/or the blood oxygen monitoring function may be named as a health monitoring unit, which are common technologies in the art, and detailed descriptions thereof are omitted here.

Example 4

In an exemplary implementation manner of the present invention, there is further provided a directional exercise assisting method, using the directional exercise assisting system as described in embodiment 1, on the basis of embodiment 2, adding an evaluation function, using the processor of the smart watch in embodiment 1 and the server in embodiment 1, to evaluate the specific situation of the athlete, including the following steps:

1) evaluating the body state, detecting the body of the user before and during use, and timely proposing suggestions to the user;

2) line evaluation, namely automatically comparing whether the geographical position information of the road sign module passed by the user is correct or not;

3) after the directional movement is finished, automatically planning a reasonable path, and providing an improvement suggestion for the user according to the traveling route of the user;

4) the scores of the sporters are compared by themselves, and data analysis is simply carried out.

With respect to the content of the aspect 1), please refer to example 3, the information detected in example 3 is compared with the standard value, or the players are compared with each other, when the server finds that the physical state of the player is not suitable for sports, the host can force the player to quit the sports.

For the content of the aspect 2), the card punching result of the GPS positioning module of each sporter recorded in the server is compared with the geographical position information marked by the road marking module, and the wrong road section of the sporter route is found out or checked.

For the content in the aspect of 3), forming an actual route of each sporter through the position sent by the GPS positioning module of each sporter in real time recorded in the server, comparing the actual route with the reasonable route to obtain the coincidence rate between the actual route and the reasonable route, and sequencing the coincidence rate between the actual route and the reasonable route of each sporter.

For the content in the aspect of 4), the final time consumption of all the sporters can be sorted, and the segmented time consumption of the sporters can be compared; the data analysis comprises the functions of analysis of passing points in the way, comparative analysis with opponents and the like.

Example 5

In a typical implementation manner of the present invention, a directional exercise assisting method is further provided, where the directional exercise assisting system described in embodiment 1 is used, and on the basis of embodiment 2, a mode selection function is added, and three types of competition mode, training mode, and leisure mode are provided, specifically as follows:

1) competition mode

Firstly, in a short-distance directional race with a straight-line distance of three kilometers, the accuracy of a GPS positioning module is set to be 0.5 meter;

secondly, in a medium and long distance directional competition with a linear distance of more than three kilometers, the accuracy of a GPS positioning module is set to be 1 meter;

and thirdly, in the directional relay competition of multi-person relay, the accuracy of the GPS positioning module is set to be 0.5 m, and two persons transmitting the relay baton start timing in a designated area at the same time.

The accuracy here is defined by a circle with a center point as a radius, and it can be understood that in other embodiments, the accuracy also has other values to meet different use requirements, and details are not described herein.

2) Training mode:

giving different training modes by detecting the motion levels of different users;

firstly, a basic line training mode: selecting an open ground as a training field, setting geographical position coordinates marked by a plurality of road sign modules in the training field, and enabling a user to directionally move according to the set road sign modules according to a set sequence;

a high-level line training mode: the trainer automatically plans the field, and the server automatically provides the optimal route planning for the user by combining the route and the physical condition of the user in real time.

3) A leisure mode:

combining directional motion with cross-country hiking: the planned route is input into the equipment in the early stage, the equipment automatically selects a landmark place on the route according to the route, and the system automatically notifies when a user reaches one place, so that the cross-country people can feel the forward distance and the position of the cross-country people at any time, and the users can have the achievement feeling of conquering the targets;

directional movement is combined with scenic spot travel: the scenic spot information is input into the system, scenic spot browsing routes are automatically planned for the user, and the scenic spot information is introduced after the user reaches the scenic spot.

The leisure mode is not limited to directional sports, and other terrestrial, aquatic, and airborne projects are possible.

Example 6

In a typical implementation manner of the present invention, a directional exercise assisting method is further provided, where, using the directional exercise assisting system described in embodiment 1, on the basis of embodiment 2, a geographic environment risk prompting function is added, and when a user is in different geographic environments, a smart watch uses a speaker or an earphone to send out different voice messages to remind the user, specifically as follows:

1) in mountainous terrain, voice information includes but is not limited to safety prompt, altitude prompt and whether an outdoor safety event occurs, and the voice information can enable a user to be far away from danger as far as possible;

2) in the park terrain, voice information includes but is not limited to crowd density, whether dangerous plants exist and the forbidden zones cannot be crossed;

3) in scenic spot topography, the voice information includes but is not limited to introduction view, puts the scenic spot introduction into it, and when the user arrives at the scenic spot with visitor's identity, the system can fix a position in real time, helps the user introduce the scenic spot.

It will be appreciated that the location of use of the refined terrain cues may also be a city, a highway, etc.

Example 7

In an exemplary embodiment of the present invention, a directional exercise assisting method is further provided, where the directional exercise assisting system described in embodiment 1 is used, and on the basis of embodiments 2 and 5, a function of automatically switching between modes is added, specifically as follows:

the device recommends a corresponding mode for the user according to the position of the user, for example: if the user is in the area of the directional sports competition, the equipment can remind the user whether to start the competition mode; for another example: if the user is in the scenic spot, the equipment can remind the user whether to start the leisure mode; and so on, and will not be described herein.

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. A directional movement auxiliary system is characterized by comprising a server and a terminal with a display, wherein the terminal is provided with a communication unit and a navigation module for recording mobile geographic position coordinates; the server is provided with road sign modules for marking geographic positions, each road sign module has unique geographic position information, the server stores identifier information corresponding to the geographic position information marked by each road sign module, and the road sign modules are used for exciting the server to record mobile geographic position coordinates of the navigation module; the terminal and/or the server are provided with a health monitoring unit, a safety early warning unit and an alarm.

2. A directional movement assistance system according to claim 1 wherein the terminal is further communicatively connected to a memory having a directional movement electronic map stored therein, the display of the terminal being configured to display the directional movement electronic map.

3. A directional movement assistance system according to claim 1 wherein said warning device is a speaker and/or an electrode and/or a warning light.

4. The system of claim 1, wherein the server comprises a card-punching request generating unit for generating a recipient list, the recipient list comprising a set of member information for participating in the directed exercise, the identifier information corresponding to each member information.

5. A directional movement assistance system according to claim 1, wherein said server is provided with a timer, and when the mobile geographic location information sent to said server by said navigation module changes within a set time, said timer of said server starts to time the corresponding navigation module.

6. A directional movement assistance method characterized in that, using the directional movement assistance system of claim 1, a sporter wears the terminal, and the server records the mobile geographical position coordinates of the navigation module when the sporter approaches the geographical position information indicated by the signpost module; and marking the mobile geographic position coordinates into an electronic map stored in a server, simultaneously corresponding the identifier of the navigation module to member information of the receiving end list, and corresponding the member information to the mobile geographic position and the geographic position of the landmark module.

7. The directional movement assistance method according to claim 6, wherein the electronic map stored in the server marks a dangerous area, and when the mobile geographic position information sent to the server by the navigation module is located in the dangerous area, the server sends an alarm signal, and the navigation module reminds the user.

8. A directional movement assistance method according to claim 6, wherein a physical health alert value of the sporter is set, the physical health monitoring unit detects the physical health information of the sporter in real time, and the terminal sends alarm information to the sporter and the server when the physical health monitoring unit detects that the real-time physical health information of the sporter reaches or exceeds the alert value in real time.

9. The method as claimed in claim 6, wherein the server evaluates the specific situation of the sporter through the information provided by the terminal, comprising the following steps:

1) evaluating the body state, detecting the body of the user before and during use, and timely proposing suggestions to the user;

2) line evaluation, namely comparing whether the geographical position information of the road sign module passed by the user is correct or not;

3) after the directional movement is finished, automatically planning a reasonable path, and providing an improvement suggestion for the user according to the traveling route of the user;

4) and comparing the scores of the sporters and automatically analyzing the data.

10. A directional movement assistance method according to claim 6 wherein said navigational module provides a plurality of positioning accuracies, said server provides a plurality of movement routes, said annunciator provides a plurality of alert messages, and said navigational module, said server and said annunciator cooperate to accommodate different usage environments.

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