CN110461425B - Intelligent bicycle movement device and control method thereof - Google Patents

Abstract

The invention provides an intelligent bicycle movement device and a control method thereof. The control method of the intelligent bicycle sports device receives first user information including various input information of a user, detects first running information including speed, pedal frequency, heart rate of the user, GPS information and bicycle dynamometer information of a bicycle according to a set time unit, transmits the first user information and the first running information to a server, and receives and displays a training item determined based on the first user information and the first running information.

Description

Intelligent bicycle movement device and control method thereof

Technical Field

The present invention relates to an intelligent bicycle exercise device and a control method thereof, and more particularly, to an intelligent bicycle exercise device and a control method thereof that provide training information based on input user information and driving information.

Background

With the technical development of the internet and the smart phone, the provided information of bicycle running can be easily received. Bicycle training programs have become popular in cities. However, the bicycle training items popularized in the market at present are mainly based on the body shapes and physical strength of foreigners. Therefore, there are bicycle training items that are popular in the market today that are difficult to consider as training items that match the user's respective body type or physical strength conditions.

Also, bicycle accidents are an increasing trend every year. In addition, when the bicycle is taken in a big bike race, death accidents occur due to health conditions such as difficulty in blood pressure management. Moreover, bicycle users have more physical strength than themselves during training, and thus a great number of fatalities occur during driving due to head falls. Therefore, the necessity of providing training items corresponding to the physical strength information of the users reflecting the health status of the users is highlighted.

In order to evaluate the procedure of the training program suitable for the user, the user needs to participate in the virtual tournament for a predetermined time without time limitation, and to measure the race travel information of the user on a route defined by the server to manage the records in the virtual tournament.

Based on the personal health status, physical condition, usual driving record and virtual competition driving record, the training level is adjusted to provide the user with the necessity of proper bicycle training items.

Disclosure of the invention

Technical problem to be solved by the invention

The present invention has been developed to solve the above problems.

The invention aims to provide an intelligent bicycle movement electronic device and a control method thereof, which provide training information corresponding to input user information, detected running information and user state information, and virtual competition and community service among users.

Means for solving the problems

The control method of the intelligent bicycle moving device of one embodiment of the present invention for achieving the objects includes the steps of: receiving input first user information including gender, age and body information of a user; detecting first running information including a speed, a pedaling frequency, a heart rate of a user, GPS information and power meter information of the bicycle in a unit of set time, and storing the detected first running information; sending the first user information and the first running information to a server; receiving, by the server, a training item determined based on the first user information and first travel information; displaying the training items received by the server.

And, further comprising the steps of: receiving, by the wearable device, at least one of a proximity warning or a rear image; for a case where a rear image is received by the wearable device, storing the received rear image; and for a case in which a proximity warning is received by the wearable device, displaying the received proximity warning.

The server receives a plurality of user information and travel information from a plurality of intelligent bicycle exercise devices, stores standard travel information corresponding to sex, age, and body information based on the received plurality of user information and travel information, and calculates a user rank based on the stored standard travel information.

The server selects a reference training level corresponding to the standard travel information using a bicycle training item (training method) based on a heart rate range, and generates a training item by adjusting the reference training level according to a difference between the standard travel information and the first travel information.

The server selects a travel route corresponding to the standard travel information among the plurality of stored travel routes, and generates a training item.

The wearable device captures a rear image using a camera, detects the approach of an object on the left, right, or rear side using a first side sensor, a second side sensor, and a rear sensor, and transmits an approach warning to the intelligent bicycle moving apparatus when the shortest distance between the bicycle and the object is less than a predetermined value.

The wearable device displays the rear image and an approach warning UI (user interface) by using a display unit.

In addition, an intelligent bicycle sport device of one embodiment of the present invention for achieving the objects includes: an input unit that receives first user information including sex, age, and physical information of a user; a sensor unit for sensing the speed and the pedaling frequency of the bicycle, the heart rate of the user, GPS information and the power meter information of the bicycle in a preset time unit; a storage unit for storing the sensed speed and pedaling frequency of the bicycle, heart rate of the user, GPS information and bicycle power meter information as first driving information; a communication unit that performs communication with the server and the wearable device; and a display part displaying the bicycle movement UI; and a control unit that controls the communication unit to transmit the first user information and the first travel information to a server, receives a training item determined based on the first user information and the first travel information from the server, and controls the display unit to display the received training item.

In addition, a wearable device of an embodiment of the present invention for achieving the object includes: a camera for taking a rear image; a sensor unit including a first side sensor for detecting the approach of an object on the left side, a second side sensor for detecting the approach of an object on the right side, and a rear sensor for detecting the approach of an object behind; a communication part performing communication with the intelligent bicycle movement device; a display unit that displays at least one of the rear image and the approach warning UI; and a control part controlling the communication part to transmit an approach warning and the rear image to the intelligent bicycle moving device and to control the display part to display the approach warning, in case that the sensor part detects the approach of the object.

In addition, a server of an embodiment of the present invention for achieving the object includes: a communication part performing communication with at least one intelligent bicycle moving device; and a control unit that controls the communication unit such that, when first user information and first travel information are received by a first intelligent bicycle sports device, a training item is determined based on the received first user information and first travel information, and the determined training item is transmitted to the first intelligent bicycle sports device, wherein the first user information displays the sex, age, and body composition of the first user, and the first travel information displays the speed, the tread frequency, the heart rate, and GPS information of the user.

The control unit stores standard travel information corresponding to sex, age, and body information based on a plurality of user information and travel information received by the plurality of intelligent bicycle exercise devices, calculates a user rank based on the stored standard travel information, selects a reference training item corresponding to the standard travel information using a bicycle training item based on a heart rate number range, and adjusts the reference training level according to a difference between the standard travel information and the first travel information, thereby generating a training item.

The control unit selects a travel route corresponding to the standard travel information from among the plurality of travel routes stored, and generates a training item.

ADVANTAGEOUS EFFECTS OF INVENTION

As described above, according to various embodiments of the present invention, a user receives appropriate training information to provide the user, thereby performing safe and efficient cycling.

Drawings

FIG. 1 is a system diagram showing an intelligent bicycle sport system in accordance with one embodiment of the present invention;

FIG. 2 is a block diagram briefly showing the construction of the structure of the intelligent bicycle sport device in accordance with one embodiment of the present invention;

FIG. 3 is a diagram for explaining an embodiment of providing training information by the intelligent bicycle exercise device according to one embodiment of the present invention;

FIG. 4 is a diagram illustrating an embodiment of a wearable device providing training information according to an embodiment of the present invention;

FIG. 5 is a block diagram schematically showing the structure of a server according to an embodiment of the present invention;

fig. 6 is a block diagram briefly showing the structure of a wearable device of one embodiment of the present invention;

FIG. 7 is a flowchart for explaining a control method of the intelligent bicycle moving device in accordance with one embodiment of the present invention;

fig. 8 is a sequence diagram for explaining a control method of the intelligent bicycle motion system in accordance with one embodiment of the present invention;

fig. 9 is a sequence diagram for explaining a control method of the server according to an embodiment of the present invention.

Preferred embodiments of the invention

Terms used in the embodiments of the present disclosure are briefly described, and the embodiments are specifically described.

Terms used in the embodiments of the present disclosure select general terms that can be currently widely used based on functions in the present disclosure, but they are different according to intentions or cases of those skilled in the art, appearance of new technology, and the like. In addition, in a specific case, there is a term arbitrarily selected by the applicant, and in this case, the meaning thereof is specifically described in the description of the corresponding embodiment. Therefore, the terms used in the present embodiment are not names of simple terms, and should be defined based on the meaning of the terms and the entire contents of the present embodiment.

In the embodiments of the present disclosure, terms including ordinal numbers are used to describe various components as in the first, second, etc., but the components are not limited to the terms. The term is used only for the purpose of distinguishing one constituent element from other constituent elements. For example, a first component may be named a second component, and similarly, a second component may be named a first component without departing from the scope of the present disclosure. And/or the term includes a combination of a plurality of related items or any one of a plurality of related items.

Also, in the embodiments of the present disclosure, the singular expressions include plural expressions without being explicitly defined differently in the text.

In the embodiments of the present disclosure, the terms "including" or "having" mean that there are features, numbers, steps, actions, components, or combinations of features, numbers, steps, actions, components, or components described in the specification, and it should be understood that the existence or addition of one or more other features, numbers, steps, actions, components, or combinations of other features, steps, actions, components, or components is not previously excluded.

Also, in the embodiments of the present disclosure, a "module" or "section" performs at least one function or action, and is implemented by hardware or software, or by a combination of hardware and software. In addition, the plurality of "modules" or the plurality of "sections" are integrated by at least one module except for the existence of the required "module" or "section" realized by specific hardware, thereby realizing at least one central processing unit.

Also, in an embodiment of the present disclosure, the user input includes: at least one of a touch input, a bending input, a voice input, a key input, and a multi-modal input, but is not limited thereto.

Also, in the embodiments of the present disclosure, "application software" refers to a series of computer program sets studied for executing a specific service. In embodiments of the present disclosure, application software is diversified. For example, but not limited to, a bicycle motion recording application, a video playback application, a mapping application, a calendar application, etc.

The training items are programs for providing a target running speed and running time of the bicycle, a pedaling frequency, a heart rate, bicycle dynamometer information, and a training running route at one time or within a specific time according to a training purpose of the user, so as to effectively display exercise effects such as enhancing ability, enhancing physical strength, and enhancing muscular strength. In this case, the bicycle dynamometer information is information related to measuring a Work Rate (Watt Rate, Watt) at which the user rotates the bicycle pedal.

The travel information or the travel record is information recorded by detecting position information (latitude, longitude, altitude), speed information, step frequency information, wattmeter information, and travel trace information generated in units of one second or one minute, and information obtained by displaying a map, a latitude, longitude, altitude, speed, step frequency, heart rate, limit heart rate, and the like in a form of a table, a graph, or a graph, based on a time series using the recorded information.

The user information includes body analysis information such as ID, e-mail address, nationality, address, mobile phone number, name, nickname, sex, year and month of birth, weight, height, and muscle mass, arm length, leg length, minimum/maximum blood pressure-related information, other health and disease information, bicycle adjustment task, bicycle model, and design structure.

The publication refers to completed contents and completed articles on the web including attachments, pictures, videos, tables, and the like, which are stored in the server and used for communication, and which are transmitted by a user or an operator to another person.

The present disclosure is described below with reference to the drawings. Fig. 1 is a drawing showing an intelligent bicycle sport system according to an embodiment of the present invention. As shown in fig. 1, the intelligent bicycle sport system 10 includes: the intelligent bicycle sport device 100, the. At this time, the smart bicycle exercise device 100, the. The intelligent bicycle exercise device 100 receives and inquires the first user information including the sex, age, body analysis information, and health status of the user, the bicycle design structure, the running experience, and the like, which are input. In addition, in the case where the user's information is stored in the intelligent bicycle moving apparatus 100, the intelligent bicycle moving apparatus 100 introduces the user information according to the input of the selection user.

The intelligent bicycle exercise device 100 detects first travel information including GPS information and bicycle dynamometer information indicating the current speed and the pedaling frequency of the bicycle, the current heart rate of the user, and the current position of the user, and records and stores the first travel information in units of one second or one minute. At this time, the cadence (cadence) is the RPM of the bicycle pedal, and is the number of revolutions in one minute.

And, the intelligent bicycle moving device 100 transmits the input first user information and the detected first traveling information to the server. The intelligent bicycle exercise device 100 stores and manages front and rear video information using a video device such as a camera, and transmits the front and rear video information to the server 200 or at least one of the user terminal devices 400.

Also, the intelligent cycling apparatus 100 inquires about the virtual tournament information to request participation in the virtual tournament. The intelligent bicyching device 100 transmits the provisional participation of the first user, the first travel information to the server 200 in order to request the participation examination. Then, the intelligent bicycle exercise device 100 receives and displays the virtual tournament participation result transmitted from the server 200.

Also, the intelligent bicycling exercise device 100 transmits at least one of community-related information, real-time location information of the first user, first user conversation or message/voice information, or first user-generated activity information to the server 200.

The server 200 determines a training program based on the first user information and the first driving information received by the intelligent bicycle moving apparatus 100.

Specifically, the server 200 selects a reference training level corresponding to the first user information using a training program (training method, for example, standard training of UCI (international bicycle alliance)) performed based on the stored heart rate number range. Then, the server 200 increases or decreases the reference training level by comparing the first travel information with the standard travel information, and generates a training item for the first user and provides the training item to the first user. The standard travel information is the average bicycle speed, pedal frequency, heart rate, bicycle dynamometer information, and bicycle travel trace information, which are stored in the server 200 based on the user information and travel information received from the intelligent bicycle exercise devices, such as the sex, age, bicycle type, health information, and human body analysis information of the user.

The server 200 generates a virtual tournament specified for a certain period of time for the purpose of training level confirmation and level adjustment of the first user, training result verification, and the like, stores the travel information of the first user in the server 200, and provides information and order by comparing the travel information with the information of a plurality of users.

The virtual tournament means that when any one of a plurality of travel routes stored in the server 200 is provided to a plurality of intelligent bicycle exercise devices, and a plurality of users travel the corresponding travel route within a predetermined fixed time, the start date, the end date, the travel speed, the pedaling frequency, the bicycle wattmeter information, and the travel trace position information are detected and transmitted to the server 200, and the travel record information and the sequence of the plurality of users are analyzed.

Also, the server 200 receives the real-time location information from the first intelligent bicycling apparatus 100, and transmits the location information of the first bicycling apparatus 100 through the bicycling apparatus for which the location information query authority of the first user exists. Which enables multiple users to share real-time location information for emergency treatment in the event of a queue fall or accident.

The server 200 stores/manages the publication and other publication or activity information for traveling, which is input or transmitted by the plurality of intelligent bicycle exercise devices 100, a. In this case, the event information includes an event topic, an event location, an event date, travel route information (trace information displayed on a map), travel section height information, prepared items, security items, participants, event presenter information, a contact method, and the like. Which enables multiple users to communicate through a community.

The wearable device 300 photographs the back and detects an object approaching the side or the back. And, the wearable device 300 stores the proximity warning and the rear image and transmits to the intelligent bicycle sport device 100 or the user terminal device 400.

The intelligent bicycle exercise device 100 displays the training items received by the server 200 and the approach warning and the rear image received by the wearable apparatus 300.

As indicated above, the user is provided with the appropriate training program, thereby enabling the user to perform safe and effective training.

The intelligent bicycle exercise device 100 will be described in more detail with reference to fig. 2 and 3. Fig. 2 is a block diagram showing the structure of the intelligent bicycle sport device 100 according to one embodiment of the present invention. The intelligent bicycle exercise device 100 includes: communication unit 110, sensor unit 120, display unit 130, input unit 140, and control unit 150.

Fig. 2 is a diagram illustrating a case where the intelligent bicycle exercise device 100 has various functions such as an input function, a communication function, and a display function, and shows various components in a combined manner. Therefore, according to the embodiment, some of the components shown in fig. 2 may be omitted or changed, and other components may be added.

The communication section 110 performs communication with the server 200 or the wearable device 300 according to various types of communication methods. In particular, the communication unit 110 transmits the user information and the travel information to the server 200, and the server receives the training items determined based on the user information and the travel information. The communication unit 110 receives the rear image and the proximity warning from the wearable device 300.

In this case, the communication unit 110 performs communication with the server 200 or the wearable device 300 using the internet, a wireless network, a wireless lan, a short-range wireless technology, or the like, but is not limited thereto.

The sensor part 120 detects the surrounding environment of the intelligent bicycle sport device 100. In particular, the sensor portion 120 includes: a heart rate sensor (not shown) attached to the body of the user to detect the heart rate of the user; a pedaling frequency sensor attached to a pedal of the bicycle to detect a pedaling frequency; a speed sensor detecting a speed of the bicycle; and a global positioning information receiving part for detecting the current position of the user; a proximity information sensor, etc., and thereby detects the heart rate, the frequency and the speed of the user, global positioning information, and proximity information. In addition, although the sensor unit 120 is described as being included in the intelligent bicycle exercise device 100, the sensor unit 120 is only one example, and the sensor unit 120 may be separate from the intelligent bicycle exercise device 100, and may transmit the ambient environment information detected through communication to the intelligent bicycle exercise device 100.

The display section 130 displays video data. In particular, the display unit 130 displays user information, travel trace information, training items, proximity warnings, virtual tournament item information, location information of other users, publications, and the like.

The input part 140 receives the input user command for controlling the intelligent bicycle moving device 100. In particular, the input unit 140 is used to receive input user information and includes various input devices such as a touch input unit, a frequency modulation key, a voice input unit, and a keyboard.

The control unit 150 controls the overall operation of the intelligent bicycle exercise device 100 using various programs. In particular, the control unit 150 stores the user information input through the input unit 140 and the travel information detected by the sensor unit 120, transmits the user information and the travel information to the server 200, and controls the communication unit 110 so that the training items determined based on the first user information and the first travel information are received by the server 200.

The control unit 150 controls the display unit 130 to display the training items.

For example, as shown in the fig. 3 display, the control section 150 controls the display section 130 to display a training item UI 303 presenting training information. The training item UI 303 includes: a speed UI element 305 that displays the target speed and the current speed; a frequency-stepped UI element 307 that displays a target frequency stepped and a current frequency stepped; a travel distance UI element 309 that displays a target travel distance and a current travel distance; a heart rate number UI element 311 that displays the target heart rate number, the current heart rate number, and the maximum allowable heart rate number set by the first user; a UI element 313 displaying information of energy applied to the current bicycle moving pedal; and a UI element 315 that displays the current travel time.

Then, the control unit 150 controls the display unit 130 so that the difference between each target numerical value and the travel-related numerical value is displayed in numerical terms or symbols.

Then, the control unit 150 controls the display unit 130 to display the target travel route and the current travel track in the form of a map.

Further, the control unit 150 controls the display unit 130 to display the virtual tournament item.

And comparing the target speed, the target stepping frequency, the target driving distance, the target driving route, the current speed, the current stepping frequency and the current driving trace for effectively enhancing physical strength, ensuring safety, improving strength and the like, and displaying, thereby having the technical effect of intuitive comparison of users.

Fig. 4 is a block diagram showing the structure of the server 200 according to an embodiment of the present invention. The server 200 includes: a communication unit 210, a storage unit 220, and a control unit 230. The server 200 is described as being separate from the intelligent bicycle moving device 100, but it is only one embodiment and can be included in the intelligent bicycle moving device 100.

The communication part 210 performs communication with the intelligent bicycle moving device 100 according to various types of communication manners. In particular, the communication unit 210 receives the user information and the driving information from at least one of the intelligent bicycle exercise devices 100, and transmits the training items and the virtual competition items, other information and the position information and the communication information, which are generated based on the user information and the driving information, from the control unit 230.

The storage unit 220 stores bicycle training items (training methods) based on the heart rate number range as a training application SW program for providing standard training items. The storage unit 220 stores information related to the sex, age, and body analysis of the user, the travel history information of the user, and the communication and notification information of the plurality of users, based on the user information and the travel information received from the plurality of intelligent bicycle exercise devices 100, respectively.

The control unit 230 controls the overall operation of the server 200. In particular, the control unit 230 generates and matches standard travel information corresponding to the sex, age, health information, and human body analysis information of the user based on the plurality of pieces of user information and travel information, and stores the standard travel information in the storage unit 220. For example, the controller 230 stores the travel distance, the heart rate number, and the travel trace in the 20-pair male travel a section in which the body fat percentage is 15% in the storage unit 220.

When the first user information and the first travel information are received by the intelligent bicycle exercise device 100, the control unit 230 selects the reference training level corresponding to the first user information and the first travel information in the training items providing the bicycle training items (training methods) based on the heart rate number range.

Then, the control unit 230 compares the average traveling information stored in the storage unit 220 with the first traveling information to adjust the reference training level, thereby generating a training item.

For example, when the average travel information stored in the storage unit 220 shows a heart rate of 130 and the first travel information shows a heart rate of 150, the control unit 220 generates a training item at a level one step lower than the reference training level. Which has a technical effect of providing a more appropriate training program to a user based on the relative scores of the levels of training experienced by a plurality of users even though gender, age, and human body analysis are similar.

The control unit 220 determines various travel routes such as the shortest travel route and the travel route according to the difficulty level using the GPS information and the current position of the intelligent bicycle exercise device 100. The control unit 220 determines the bicycle-dedicated road information and the automobile-dedicated road information using the GPS information. Thus, the user is prevented from entering the automobile-dedicated road.

Fig. 5 is a block diagram showing the structure of a wearable device 300 of one embodiment of the present invention. As shown in fig. 5, the wearable device 300 includes: communication unit 310, sensor 320, and control unit 330. In addition, the wearable device 300 refers to an intelligent goggle, a helmet, or a combination of an intelligent goggle and a helmet.

The communication part 310 performs communication with the intelligent bicycle exercise device 100 according to various communication methods. In particular, the communication part 310 transmits at least one of a rear image or an approach warning to the intelligent bicycle sport device 100.

The sensor 320 detects the surrounding environment of the wearable device 300. In particular, the sensor 320 detects objects approaching the left and right sides using the first side sensor and the second side sensor. Specifically, the first side sensor, the second side sensor, and the rear sensor generate ultrasonic waves or light and receive the ultrasonic waves or light reflected and returned from the object, thereby detecting whether the object is approaching. The sensor 320 captures a rearward image by a rearward camera.

The control unit 330 controls the entire operation of the wearable device 300 according to the input of the user. In particular, in case that the approach of an object is detected by the sensor 320, the control part 330 controls the communication part 310 to transmit the approach warning and the backward image to the intelligent bicycle exercise device 100. Further, the control unit 330 controls a display unit (not shown) to display an approach warning UI. At this time, the approach warning UI includes the direction in which the object approaches.

Fig. 6 shows an example of a travel UI displayed on a display unit (not shown) according to an embodiment of the present invention. As shown in fig. 6, the travel UI 601 includes a rear view 603 and travel guidance 605. The travel guide 605 includes left rotation 605-1, remaining distance 605-2, current step frequency 605-3, heart rate number 605-4, approach notification display 606, and the like.

A control method of the intelligent bicycle moving device 100 will be explained with reference to fig. 7.

First, the intelligent bicycle sport device 100 receives first user information including the sex, age and human body analysis of the user, which is input (S710). In the case where the first user information is the stored user information, the intelligent bicycle motion device 100 selects an item of the user information and receives an input.

Then, the intelligent bicycle exercise device 100 detects first traveling information including the speed of the bicycle, the pedaling frequency, the heart rate of the user, and GPS information (S720).

And, the intelligent bicycle exercise device 100 transmits the input first user information and the detected first driving information to the server 200 (S730). In addition, the intelligent bicycle exercise device 100 may transmit the first user information and the first travel information at a predetermined cycle, and may transmit an upgrade request according to the first user information and the first travel information to the server 200.

Also, the intelligent bicycle exercise device 100 receives the training items by the server 200 (S740). Specifically, the intelligent bicycle exercise device 100 receives, by the server, a training program generated based on the first user information and the first travel information.

Also, the intelligent bicycle exercise device 100 displays the training items received by the server 200 (S750).

Fig. 8 is a sequence diagram for explaining a control method of the intelligent bicycle exercise system 10 according to one embodiment of the present invention.

First, the intelligent bicycle sport device 100 receives the input first user information including the bicycle kind/design structure, sex, age and human body analysis information of the user (S810).

Then, the intelligent bicycle exercise device 100 detects the first traveling information including the speed, the pedaling frequency, the heart rate of the user, and the GPS information of the bicycle (S820).

Also, the intelligent bicycle exercise device 100 transmits the input first user information and the detected first travel information to the server 200 and the wearable apparatus 300 (S830). Specifically, the intelligent bicycle exercise device 100 is inputted with the first user information, and transmits the first user information and the first travel information to the server 200 in case of detecting the first travel information. The intelligent bicycle exercise device 100 may transmit the first user information and the first travel information at a predetermined cycle, or may transmit the first user information and the first travel information in response to an update request of the first user information and the first travel information.

The server 200 generates a training program based on the first user information and the first travel information received by the intelligent bicycle moving apparatus 100 (S840). Specifically, the server 200 selects a training level corresponding to the first user information in the bicycle training program (training method) based on the heart rate number range using the first user information. Then, the server 200 compares the first travel information with the average travel information corresponding to the first user information to adjust the training level, thereby generating a training item. The server 200 analyzes the accumulated information on sex, age, health status, and driving ability, assigns a training level to the first user, and generates a personalized training program for the first user.

Then, the server 200 transmits the generated training items to the intelligent bicycle moving apparatus 100 and the wearable device 300 (S850).

The intelligent bicycle sports device 100 displays the received training items (S860).

The wearable device 300 detects the approach of an object using a plurality of sensors and photographs the rear (S870). Specifically, the wearable device detects the approach of objects on the left/right and the rear side using a first side sensor, a second side sensor, and a rear sensor, and captures a rear image using a camera.

And, in case of detecting the approach of at least one object in the left/right and rear sides, transmits the wearable device 300 approach warning and the rear image to the intelligent bicycle moving apparatus 100 (S880). And, the wearable device 300 transmits the proximity warning to the intelligent bicycle moving apparatus 100 while displaying the proximity warning UI.

The intelligent bicycle moving device 100 displays the approach warning UI (S890).

As indicated above, the user is provided with the appropriate training program, and thus, the user receives the provided safe and effective training program.

Fig. 9 is a sequence diagram for explaining a method of virtual tournament information according to an embodiment of the present invention.

First, the server 200 analyzes the distance, the gradient, and the difficulty level of each section based on the accumulated user rank, tournament record result, travel information, and travel trace (S910).

The server 200 generates a virtual tournament based on the analyzed result (S920).

The virtual tournament refers to a time-independent network-provided type of racing, a starting date of racing, a finishing date of racing, a bicycle type, a traveling route, a racing item, and a racing level, and when a first user travels the traveling route provided in the virtual tournament from a starting point to each of the middle fulcrums and the finishing fulcrum, the first traveling information generated by the intelligent bicycle exercise device 100 is transmitted to the server 200, and the server 200 analyzes the record of each user and provides the statistics as information to the personal computer 400 and the intelligent bicycle exercise device 100 through the network.

An example of the virtual tournament is a case where a first user selects a virtual single tournament or a virtual group tournament provided by the server 200 through a network, competition information and competition route information (global positioning information) are stored in the intelligent bicycle motion device 100, and the first user transmits first travel information to the server 200 when the first user runs out of a travel route of a predetermined start point (convenience store in front of silkworm nursery dock), middle fulcrum (convenience store in hanjiang park, panpu) and end fulcrum (below south end of han bridge) without being limited by weather, day time, night time, and the like. The server analyzes the first travel information of the first user, compares the first travel information with the records of the existing users participating in the virtual tournament, and provides various statistics such as the rank of the first user via the network. The virtual tournament defines a start pivot point, an intermediate pivot point, and an end pivot point of the travel route, and stores the travel information of the user as a race record in the server when the user participates in the tournament time. The competition time is determined by adding the starting date and the ending date to each other based on the date.

The server 200 transmits the generated virtual tournament information to the intelligent cycling apparatus 100 (S930).

The intelligent bicycle exercise device 100 stores the virtual tournament information transmitted by the server 200. The virtual tournament information displays information on a tournament name, a tournament start date and time, a tournament end date and time, a single tournament/team tournament, a tournament category, a tournament item, a bicycle type, a tournament qualification, a driving route, a tournament item, a tournament level, and the like. (S940)

The first user participates in the virtual tournament when applying for participation in the virtual tournament and performing an input action such as a start button. (S940)

When the first user performs an input action such as a start button of the virtual tournament, the intelligent bicycle motion device 100 transmits virtual tournament information such as tournament route information to the wearable device 300. (S950)

The intelligent bicycle exercise device 100 detects the start position/time and the end position/time and the first travel information when participating in the virtual competition, and stores the first travel information and the travel trace corresponding to the time series. (S960)

The intelligent bicycle exercise device 100 transmits information of the first user participating in the virtual tournament and the first travel information to the server 200 (S970).

The server 200 compares the information of the users participating in the virtual tournament with the travel information, analyzes the information, and generates and stores sequence information and statistical information for each item and each level. (S980)

The virtual tournament result of the first user is applicable to the training level accounting of the first user. In the case of a group game, the rank order of team operations is determined based on the travel records of the first user and the users of the group, and statistical information is generated and stored. (S980)

The server 200 analyzes and receives the transmitted information, and transmits the information to the first user through various electronic devices such as the intelligent bicycle moving apparatus 100 and the user terminal device 400 in the order of comparison with a race, a project, a grade, a region, a team/individual, a time sequence, and a specific user. (S990)

In addition, the above method can be implemented by a program executed by a computer, and can be implemented in a wide range of digital computers running the program, using a recording medium readable by the computer. The structure of data used in the above method is recorded in a computer-readable recording medium by various methods. The computer-readable recording medium includes: magnetic storage media (e.g., read-only memory, floppy disks, hard disks, etc.), optical reading media (e.g., CD-rom, digital video disks, etc.), and the like.

Those skilled in the art to which the present embodiment relates will be able to implement modifications within the scope not departing from the essential characteristics described. Therefore, the disclosed method is not limited in this respect, and should be based on the description. The scope of the present invention is shown by the claims rather than the above description, and all differences within the equivalent scope thereof should be construed as being included in the present invention.

Industrial applicability

Disclosed are an intelligent bicycle exercise device and a control method thereof, wherein a server receives various information of a bicycle user and information of a running bicycle by using wearable equipment and an IoT function, and receives and displays training items and running records by the server.

Thus, a bicycle user can perform safe and efficient bicycle exercises.

Claims (5)

1. A control method of an intelligent bicycle movement device is characterized in that,

the method comprises the following steps:

receiving input first user information including gender, age and body information of a user;

detecting first running information including a speed, a pedaling frequency, a heart rate of a user, GPS information and power meter information of the bicycle in a unit of set time, and displaying and storing the detected first running information;

sending the first user information and the first running information to a server;

receiving, by the server, a training item determined based on the first user information and first travel information;

displaying the training items and the driving records received by the server;

displaying the increase and decrease of the current value corresponding to the training speed, the treading frequency, the training time, the training heart rate number and the maximum heart rate number for blood pressure management, and the warning of the target value of the training item through characters, graphs, sounds and sounds;

receiving, by the wearable device, at least one of a proximity warning or a rear image;

for a case where a rear image is received by the wearable device, storing the received rear image; and

for a case in which a proximity warning is received by the wearable device, displaying the received proximity warning;

the server receives a plurality of user information and driving information from a plurality of intelligent bicycle exercise devices, stores standard driving information corresponding to sex, age and body information based on the received plurality of user information and driving information, and calculates a user level based on the stored standard driving information;

selecting a driving route corresponding to the standard driving information among the plurality of stored driving routes to generate a training item, determining a driving route corresponding to a shortest driving route and difficulty level using the GPS information showing the position information of the current user, determining bicycle-specific road information and automobile-specific road information using the GPS information, transmitting the bicycle-specific road information and automobile-specific road information to the intelligent bicycle sports apparatus, analyzing a distance, a slope, difficulty levels of respective sections based on the accumulated user's grade, a tournament record result, driving information, and a driving trace, generating a virtual tournament based on the analyzed result, and transmitting the virtual tournament information to the intelligent bicycle sports apparatus;

the intelligent bicycle motion device stores and displays the virtual competition information transmitted by the server, transmits the virtual competition information to the wearable device, and transmits the virtual competition participation record of the user to the server.

2. The control method of an intelligent bicycle sport device according to claim 1,

the server selects a reference training level corresponding to the standard driving information using a bicycle training program based on a range of heart rate numbers,

adjusting the reference training level according to a difference between the standard travel information and the first travel information, thereby generating a training item.

3. The control method of an intelligent bicycle sport device according to claim 1,

the wearable device captures a rear image using a camera, detects the approach of an object on the left, right, or rear side using a first side sensor, a second side sensor, and a rear sensor,

transmitting a proximity warning to the intelligent bicycle movement device for a case that a shortest distance of the bicycle to an object is lower than a set value.

4. The control method of an intelligent bicycle sport device according to claim 1,

the wearable device displays the rear image and the proximity warning user interface using a display portion.

5. An intelligent bicycle system relates to an intelligent bicycle system comprising an intelligent bicycle motion device (100), a server (200) and a wearable device (300),

the intelligent bicycle sport device (100) includes:

an input unit (140) that receives first user information that includes the sex, age, and physical information of the user;

a sensor unit (120) that senses the speed and the tread frequency of the bicycle, the heart rate of the user, GPS information, and bicycle power meter information in a predetermined time unit;

a storage unit for storing the sensed speed and pedaling frequency of the bicycle, heart rate of the user, GPS information and bicycle power meter information as first driving information;

a communication unit (110) that performs communication with the server and the wearable device; and

a display section (130) that displays a bicycle sport user interface; and

a control unit (150) that controls the communication unit (110) to transmit the first user information and the first travel information to a server (200), receives a training item determined based on the first user information and the first travel information from the server (200), and controls the display unit (130) to display the received training item;

the server (200) comprises:

a communication part (210) performing communication with at least one intelligent bicycle moving device; and

a control unit (230) that controls the communication unit (210) such that, when first user information and first travel information are received from a first intelligent bicycle motion device, a training item is determined based on the received first user information and first travel information, and the determined training item is transmitted to the first intelligent bicycle motion device,

the wearable device (300) comprises:

a camera for taking a rear image;

a sensor unit (320) including a first side sensor for detecting the approach of an object on the left side, a second side sensor for detecting the approach of an object on the right side, and a rear sensor for detecting the approach of an object behind;

a communication part (310) performing communication with the intelligent bicycle movement device;

a display unit that displays at least one of the rear image and the approach warning user interface; and

a control part (330) controlling the communication part to transmit a proximity warning and the rear image to the intelligent bicycle moving device (100) and to control the display part to display the proximity warning, when the proximity of the object is detected by the sensor part (320),

the control unit (230) stores standard travel information corresponding to sex, age, and body information based on a plurality of user information and travel information received from a plurality of intelligent bicycle exercise devices, and calculates a user rank based on the stored standard travel information,

and a communication unit (210) for generating a training item by selecting a reference training level corresponding to the standard travel information using a bicycle training item based on a heart rate range and adjusting the reference training level according to a difference between the standard travel information and the first travel information, selecting a travel route corresponding to the standard travel information from among a plurality of travel routes stored, and controlling a communication unit (210) so that a shortest travel route and a travel route corresponding to difficulty are determined using the GPS information indicating the position information of the current user, bicycle-specific road information and automobile-specific road information are determined using the GPS information, and the bicycle-specific road information and automobile-specific road information are transmitted to the intelligent bicycle exercise device (100), and the communication unit (210) is controlled so that the bicycle-specific road information and automobile-specific road information are transmitted based on the accumulated user's rank, Analyzing the distance, gradient and difficulty of each section based on the result of the competition record, the running information and the running track, generating a virtual competition based on the analyzed result, and transmitting the virtual competition information to the intelligent bicycle sports device (100),

the storage section stores virtual tournament information transmitted by the server,

the display section (130) displays the virtual tournament information,

the communication unit (110) transmits the virtual tournament information to the wearable device (300), transmits information on a user participating in the virtual tournament and travel information to the server (200),

the control unit (230) compares and analyzes information and travel information of users who participate in the virtual tournament, generates at least one of statistical information including a match, a project, a level, a region, a team/person, chronological information, and a comparison order with a specific user, and controls the storage unit (220) to store the generated statistical information including at least one of the match, the project, the level, the region, the team/person, the chronological information, and the comparison order with the specific user,

the communication part (210) transmits at least one of statistical information including the competition, the item, the grade, the region, the team/person, the time sequence information, and the comparison sequence with the specific user to at least one of the intelligent bicycle exercise device (100) and the user terminal device (400) of the first user,

the first user information displays gender, age, and body information of the first user,

the first driving information displays the speed and the pedaling frequency of the bicycle, the heart rate of the user and GPS information,

the virtual tournament information may display at least one of a tournament name, a tournament start date time, a tournament end date time, a single tournament/team tournament, a tournament category, a tournament item, a bicycle category, a tournament qualification, a driving route, a tournament item, and a tournament level.

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