KR20130008110A - Exercise information service device - Google Patents

Abstract

The exercise information history management and measurement apparatus of the present invention includes a position tracking means for checking a user's position, a moving speed, a moving time, and a moving distance, a heart rate measuring means for measuring a user's current heart rate, and a time measurement for measuring time Means and sound output means for reproducing a music file. A storage means for storing the confirmation value measured by the position tracking means and the heart rate measurement means and a music file of the sound output means, and control means for calculating the average value of the confirmation value measured by the position tracking means and the heart rate measurement means. It includes.

Description

Exercise information history management and measurement device {Exercise Information Service Device}

The present invention relates to an exercise information history management and measurement device, and more particularly, to an exercise information history management and measurement device for displaying location information, music playback, time grasp and heart rate measurement, etc., which are helpful for a user's exercise. It is about.

Today, consumers are launching devices that combine many standalone devices and other item devices that can be enhanced by the addition of mobile communication capabilities.

For example, there are devices on the PDA that can listen to or watch video and music, but there are many other items besides portable digital electronics that can benefit from mobile communications.

For example, a technique of presenting fitness management and fitness status display through a user's exercise history in the mobile communication module is presented.

Such a prior art has been introduced for the health management, such as "exercise amount calculation device using GPS reception and personal exercise management service method using the same" of the Republic of Korea Patent Application No. 2002-8402, this invention is simply the result of exercise It is managed by the server, there was a problem that is difficult to exercise in accordance with the user's physical fitness during exercise.

In addition, there was a problem that the other function is not diversified in the exercise amount calculation device.

Therefore, an object of the present invention is to display a variety of information that is helpful for the user's exercise after display.

In addition, an object of the present invention is to enable the user to detect the position information during exercise to grasp the exercise amount and the history of the exercise.

In addition, an object of the present invention is to measure the heart rate that occurs when the user exercise and to guide the heart rate to the fitness state of the user.

In addition, it is an object of the present invention to detect the current time and the measurement time.

In addition, an object of the present invention is to be able to enjoy the sound source selected from the stored sound source files.

As described above, the exercise information history management and measurement apparatus of the present invention includes a position tracking means for checking a user's position, a moving speed, a moving time, and a moving distance, a heart rate measuring means for measuring a user's current heart rate, and measuring time. Time measuring means for performing sound output means for reproducing a music file; A storage means for storing the confirmation value measured by the position tracking means and the heart rate measurement means and a music file of the sound output means, and control means for calculating the average value of the confirmation value measured by the position tracking means and the heart rate measurement means. It includes.

According to the present invention, the location tracking means is a GPS receiver that receives a signal of location information from a GPS satellite.

According to the present invention, the heart rate measuring means includes a first electrode and a second electrode for contacting the wrist of the user to detect the pulse rate, and an amplification unit for amplifying the value of the pulse rate detected from the first electrode and the second electrode; And, through the pulse amplified from the amplification unit consists of a detection unit for calculating the value of the speed and blood flow rate of blood.

According to the present invention, the control means displays the travel time, travel direction, current altitude, current travel speed and calculates the output value as an average value.

According to the present invention, the exercise state measuring apparatus according to the position detection and position change further includes an input means to input the user's gender, age, weight, and stride length, and the controller controls the value of the user's gender, age, and weight. Compared to the reference heart rate value corresponding to the user's current heart rate value is configured to display a notification state to the outside when the current heart rate value is higher than the reference heart rate value.

According to the present invention, the storage unit stores a time calculating program, a music file, a reference heart rate value calculated by the control unit, and a GPS program.

According to the present invention, the image displayed through the position tracking means, heart rate measurement means, time measurement means, sound output means, storage means and the control unit is displayed to the outside through the display liquid crystal, the display liquid crystal is a touch screen method Is done.

As described above, the exercise information history management and measurement device of the present invention manages the exercise history while displaying a variety of information helpful for the user's exercise while being mounted on the wrist and portable to the user's exercise situation It has the effect of helping you.

In addition, the exercise information history management and measurement device of the present invention enables the user to measure and transmit location information, sound source information, heart rate information, and time information to provide a variety of function information that a user can select and use various functions. It works.

1 is a block diagram showing an exercise information history management and measurement apparatus according to the present invention.
Figure 2 is a block diagram showing a heart rate measuring means according to the present invention.
3 is a block diagram showing a sound output means according to the present invention.
4 is a screen showing a state displaying the main functions of the display liquid crystal of the present invention.
5 is a screen showing a state displaying the detailed function of the location tracking means of the present invention.
Figure 6 is a screen showing a state displaying the detailed function of the sound thrust means of the present invention.
7 is a screen showing a state displaying the detailed function of the heart rate measuring means of the present invention.
8 is a screen showing a state displaying the detailed function of the time measuring means of the present invention.
7 is a screen showing a state displaying the detailed function of the input means of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, in the drawings, it is noted that the same components or parts are denoted by the same reference numerals as possible.

In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

1 is a block diagram showing an exercise information history management and measurement apparatus according to the present invention, Figure 2 is a block diagram showing a heart rate measuring means according to the present invention, Figure 3 is a block diagram showing a sound output means according to the present invention 4 is a screen showing a state displaying main functions of the display liquid crystal of the present invention, FIG. 5 is a screen showing a state of detailed functions of the position tracking means of the present invention, and FIG. 6 is a sound of the present invention. 7 is a screen showing a detailed function of the thrust means, Fig. 7 is a screen showing the detailed function of the heart rate measuring means of the present invention, Figure 8 is a detailed view of the time measuring means of the present invention This screen shows the status.

As shown in Figures 1 to 8, the exercise information history management and measurement apparatus 100 of the present invention is as follows.

As shown in FIG. 1, the present invention includes a position tracking unit 110, a heart rate measuring unit 120, a time measuring unit 130, a sound output unit 140, a storage unit 150, and a control unit 160.

The position tracking means 110, the heart rate measuring means 120, the time measuring means 130, the sound output means 140, the storage means 150 and the image displayed through the control unit is displayed to the outside through the display liquid crystal, the display liquid crystal is a touch screen method .

As shown in FIG. 2, time, MP3, GPS, and heart rate measuring emoticons are displayed on the display liquid crystal. When the corresponding emoticons are selected by contacting, the selected emoticons are switched to the detailed display function.

The storage means 150 stores a time calculating program, a music file, a reference heart rate value calculated by the controller, and a GPS program.

First, the position tracking means 110 is composed of a GPS receiver 111 for calculating the position coordinates from the GPS signal received from the satellite to determine the current position with respect to the position coordinates calculated from the GPS receiver to include the local information on the current position Extract the base information.

The position tracking means 110 outputs the current position information from the navigation signal received from the GPS satellites. Normally, the US government operates the Navigational Satellite Timing and Ranging Global Positioning System (NAVSTAR GPS), which consists of 24 GPS satellites, with four orbiting GPS satellites in each of the six separate orbits. The dog is working and three are extra. Satellite orbits lie on planes that are inclined to each other, not to poles or equators, and each satellite orbits the earth approximately once every 12 hours, making exactly two revolutions during the Earth's rotation. This arrangement allows at least four satellites to be in the same field 24 hours a day throughout the world.

The position of each satellite at a given time is known precisely, and the navigation signal is continuously transmitted to Earth to provide position information indicating the position of the satellite in space with respect to time (GPS time). This location information is known as ephemeris data. In addition to this ephemeris data, the navigation signal transmitted by each satellite includes a precise indication of the time at which the signal is transmitted. Therefore, the distance or range between the navigation signal receiver (i.e. GPS receiver) and the transmitting satellite indicates the time at which the signal is received by the receiver using this time stamp, and calculates the amount of propagation delay, i.e. the difference between the transmission time and the reception time. Then, the delay may be determined by multiplying the propagation speed of the signal. As a result of this determination, a pseudorange from the transmission satellite to the receiver is calculated. In this way, the information and position of the receiver can be determined by passive triangulation techniques using two pieces of information from the navigation signal: Ephemeris data and pseudoranges transmitted from four satellites. . Here, the pseudorange includes inaccuracy due to the delay of the receiver's clock not precisely synchronized with the GPS time and induced in navigation signal transmission by transmission through the air.

In addition, GPS performs two types of code modulation on a carrier wave (L1: 1575.42 MHz; L2: 1227.6MHz) propagation pseudorandom signal. The first method uses a Coarse / Acqution (C / A) code and uses standard positioning. It is called a service (SPS) and is mainly used for civilian use. The second method uses a precision or protection (P) code and is called a precision positioning service (PPS) and is mainly used for military purposes.

Differential GPS (Differential GPS) is used to increase the accuracy in the civil GPS, and the DGPS is composed of a reference station, a GPS receiver 111 for a reference station, and a user GPS receiver 111. The reference station installed at the point where the location is correctly geodetic is used to receive satellite data using the GPS receiver 111 for the reference station. Since the reference station can calculate the actual distance for all visible satellites, it is possible to calculate the error from the pseudorange based on the code information including the error, and the position of the user can be corrected by correcting the position of the user.

The location tracking means 110 driven as described above detects and displays an average moving speed, moving distance, current speed, and current altitude based on positioning information (ie, GPS coordinate information) received through the GPS receiver 100. It is displayed by liquid crystal.

Specifically, the displayed position status display values include speed, average speed, maximum speed, altitude, average altitude, maximum altitude, travel time, distance, distance meter, speed pace per distance, coordinates of latitude and longitude, and direction of movement. .

The measured position tracking value is stored in the storage means 150 at intervals of 1 to 10 seconds (SEC), and the position tracking value of one week is stored.

In addition, the position tracking means 110 to determine the location and movement of the movement state measuring device 100 according to the location and position fluctuations of the present invention and at the same time inputting the latitude and longitude values of a specific position in the intellectual state through the display liquid crystal The location can be found and displayed in compass mode.

As shown in FIG. 3, the display value of the position tracking means 110 as described above displays the current speed, the moving distance, the current time and the moving direction, the current altitude and altitude deviation, the current speed and the average speed.

The sound output means 140 outputs the sound source data stored in the storage means 150 according to an input signal, and the sound output means 140 outputs the decompressed digital data from the decoder 141 to release the compressed sound source data. A codec 142 for converting the analog data, and a speaker 143 for amplifying the analog data converted by the codec 142 and outputs through the earphone or speaker 143.

Here, when the user selects a sound source using a touch screen method in order to listen to music while the sound source data is compressed and stored, the sound output means 140 reads the sound source data selected by the storage means 150, and the decoder 141, the codec 142 of the sound output means 140, The stored music is output through the speaker 143.

In addition, the time measuring means 130 may display and measure the current time and time counter.

The time measuring means 130 has a repeater function, a greenwith mean time (GMT) function, and a stopwatch function.

The repeater function refers to a function of notifying the hour and minute by sounding an alarm so that the user can know the time without looking at the clock. The repeater function may determine on / off of all sound through a touch screen type liquid crystal.

The GMT function refers to having a function of displaying another time on the clock, and the stopwatch function has a function of measuring seconds / minutes / hours.

As shown in FIG. 4, the sound output means 140 has an MP3 playback, a previous sound source file, a next sound source file, a pause, a stop function, and the playback display of the sound source file is normally repeated one song, random play, and a specific folder. Only repeat, it is displayed as your own list and has a progress bar function to select the desired part.

In addition, the heart rate measuring unit 120 is amplified to amplify the value of the pulse rate detected from the first electrode 121 and second electrode 122 and the first electrode 121 and the second electrode 122 in contact with the user's wrist to detect the pulse And a detection unit 142 that calculates a value of the blood movement speed and the blood flow rate through a pulse rate amplified by the amplification unit 123.

That is, the exercise state measuring device 100 according to the position grasp and position fluctuation may be installed in an integral or separate coupling form with the band mounted on the user's wrist.

Here, the first electrode 121 and the second electrode 122 are installed at the inner circumference of the band so as to be spaced apart from each other, and the amplification unit 123 is detected by detecting a pulse generated in the wrist of the user through the first electrode 121 and the second electrode 122. Apply a pulse signal. The pulse rate signal is amplified by the pulse rate through the amplifier 123 and applied to the detector 142.

The detection unit 142 may calculate the value of the blood movement speed and the blood volume through the applied pulse rate value and display it on the display liquid crystal to determine the user's heartbeat state.

As shown in FIG. 5, the heartbeat state is displayed as a numerical value while the heart rate state of the user is displayed as a graph.

In addition, as shown in FIG. 6, the exercise state measuring device 100 according to the position detection and the position change further includes an input unit to input the user's gender, age, weight, and stride length, and the controller controls the user's gender, The reference heart rate value corresponding to the age and weight values is compared with the user's current heart rate value so that the notification state is displayed to the outside when the current heart rate value is higher than the reference heart rate value.

In addition, the control means 160 has a function of calculating the average of the confirmation value measured by the position tracking means 110 and the heart rate measurement means 120.

That is, the control means 160 displays the moving time, the traveling direction, the current altitude, the current moving speed, and calculates the output value as an average value.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

100: measuring device 110: position tracking means
111 GPS receiver 120 heart rate measuring means
121: first electrode 122: second electrode
123: amplification unit 142: detection unit
130: time measuring means 140: sound output means
141: decoder 142: codec
143: speaker 150: storage means
160: control means 170: touch screen liquid crystal

Claims (7)

Location tracking means for checking a user's location, moving speed, moving time, moving distance,
Heart rate measuring means for measuring the current heart rate of the user,
Time measuring means for measuring time,
Sound output means for playing music files;
Storage means for storing the confirmation value and the music file of the sound output means measured by the position tracking means and the heart rate measuring means;
And control means for calculating an average value of the confirmation value measured by the position tracking means and the heart rate measuring means.
The method of claim 1,
Wherein the position tracking means is a GPS receiver for receiving a signal of the position information from the GPS satellite, history management and measurement apparatus characterized in that the.
The method of claim 1,
The heart rate measuring means,
A first electrode and a second electrode contacting the wrist of the user to detect a pulse;
An amplifier for amplifying a value of the pulse rate detected from the first electrode and the second electrode;
Exercise information history management and measurement device comprising a detection unit for calculating the value of the speed and blood flow rate of blood through the pulse rate amplified by the amplification unit.
The method of claim 1,
The control means displays the movement time, the direction of travel, the current altitude, the current movement speed and calculates the output value as an average value, characterized in that the exercise information history management and measurement apparatus.
The method of claim 1,
The exercise state measuring apparatus according to the position detection and position change further includes an input means to input the user's gender, age, weight, and stride length,
The controller is configured to display a notification state to the outside when the current heart rate value is higher than the reference heart rate value by comparing the reference heart rate value corresponding to the user's gender, age, and weight with the current heart rate value. Exercise information history management and measuring device, characterized in that.
The method of claim 1,
And the storage unit stores a time calculating program, a music file, a reference heart rate value calculated by the controller, and a GPS program.
The method of claim 1,
The image displayed through the position tracking means, heart rate measuring means, time measuring means, sound output means, storage means, and the control unit is displayed to the outside through the display liquid crystal, the display liquid crystal is characterized in that the touch screen method Exercise information history management and measurement device.

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