KR101772630B1

KR101772630B1 - Pets remote management method

Info

Publication number: KR101772630B1
Application number: KR1020150102856A
Authority: KR
Inventors: 최형우; 김현우; 서영식; 석영우; 이인선
Original assignee: 서강대학교산학협력단
Priority date: 2015-07-21
Filing date: 2015-07-21
Publication date: 2017-09-12
Also published as: KR20170011012A

Abstract

A method for remotely managing a pet by using a wearable device attached to the pet includes the steps of measuring the biometric information of the pet using the sensor, , A GPS module or a beacon module to measure the position information of the pet, determine a throughput according to the communication state with the server, and determine whether the wearable device or the server transmits the biometric information of the pet and the position information To receive a control signal of a guardian from the server, and to output a stored warning sound or voice data according to a control signal of the guardian.

Description

[0001] PETS REMOTE MANAGEMENT METHOD [0002]

The present invention relates to a pet remote control method using a wearable device, and more particularly, to a pet remote control method using a wearable device, and more particularly, to a pet remote control method of attaching a wearable device to a pet to determine a dangerous situation using biometric information and positional information measured, And receiving a control signal from a guardian to output a warning sound and voice data.

According to the statistics released by the <Statistics 2014 Blue Schumer 6>, the population to raise pets exceeds 10 million people, and the growth potential of related markets including pet related goods and services is attracting attention. The growth of the pet-related market is largely due to the fact that the share of one or two people in the total population has increased significantly, but it has not been associated with the social change that positively shared life with pets through social media.

According to research and statistics, one or two people who raise pets, a typical problem faced by so-called Bamboo people, is a situation where pets are left alone after family members go out. There are no exceptions to dual-income families who leave their homes most of the day. Pets left at home are faced with the possibility of anomalous behavior including anorexia and diureticism, the possibility of running away, and the possibility of large or small personal threats that can occur in the indoor environment, but it is difficult for aged guardians to constantly check their pet status.

Some pet caregivers have attempted to remotely manage pets left behind by installing CCTV cameras or using automatic feeders to deal with this situation. However, the conventional fragmentary solution limited to a single function such as 'shooting' or 'feeding' as described above collects a variety of threats faced by the pet left alone and information of ever-changing health condition and collectively diagnoses the situation it's difficult.

As a result, the protector who empties the house for a long time has difficulty in easily recognizing the change of the crisis or the state of health of the pet, and the problem can not be prevented, and most of the problems are solved.

Wearable devices that can be directly worn on the body have been developed according to the recent technological developments. Sensors to be able to capture dangerous elements, beacons and GPS, and other means It is also developing together.

Using these technologies, comprehensive monitoring and analysis of the pet's health status and surrounding environment is presented to the protector at a remote site, and a comprehensive management device The possibility of emergence of the emergence of the.

Korean Patent Publication No. 10-2005-0078391 (Aug. 5, 2005)

Disclosure of Invention Technical Problem [8] The present invention overcomes the above-described problems of the prior art, and it is an object of the present invention to provide a method and apparatus for determining a dangerous situation of a pet by using biometric information and location information of a pet measured by a wearable device, So that the wearable device can be remotely managed in real time.

Another object of the present invention is to provide a wearable device that not only optimizes a reference value and a danger range for measuring wearer's peripheral information in consideration of a habit of an object but also can arbitrarily change it to suit the situation of a guardian and a pet through a guardian terminal And to provide a method for remotely managing pets so that information can be provided more accurately and selectively.

According to an aspect of the present invention, there is provided a method for remotely managing a pet using a wearable device attached to a pet, the method comprising: measuring the bio-information of the pet using the wearable device; The wearable device measuring location information of the pet using a GPS module or a beacon module; determining a throughput according to a communication state of the wearable device with the server; The wearable device or the server judging a dangerous situation of the pet by using the biometric information and the positional information of the pet; receiving the control signal of the guardian from the server; When the wearable device sends the control signal of the protector And outputting the stored warning sound or voice data.

In the remote pet management method according to the present invention, the step of measuring the bio-information may include the steps of measuring an exercise amount and an exercise intensity of the pet using an acceleration sensor, Measuring the heartbeat number, and measuring the body temperature of the pet using a temperature measurement sensor.

In the pet remote management method according to the present invention, the step of measuring the position information may include measuring the position coordinates of the wearable device by using one or more locators, each of which includes an antenna and is fixedly installed at a specific position on the ceiling of the room. Transmitting information stored when the wearable device is accessed within a predetermined distance using a plurality of beacon tags having individual code information, and transmitting the beacon tag to the wearable device via a beacon reader built in the wearable device, And receiving the one tag information.

In the remote pet management method according to the present invention, the plurality of beacon tags are attached / marked within the indoor activity radius of the pet to set a reference area for each of the pet dangerous situations And transmits the tag information when the pet approaches the reference area to determine a dangerous state of the pet.

In the pet remote management method according to the present invention, the step of determining the throughput may include transmitting the biometric information and the location information of the pet to the server so that the server transmits the biometric information and the location information of the pet to the server Thereby inducing the animal to judge the dangerous situation of the animal.

In the pet remote management method according to the present invention, when the throughput is less than a reference value, the wearable device judges a dangerous situation of the pet by itself using biometric information and positional information of the pet, And outputting the warning sound or the voice data according to a predetermined condition.

In the remote pet management method according to the present invention, the step of determining the dangerous state of the pet may include comparing the biometric information of the pet with a preset reference value, Measuring a staying time of the pet, and applying a risk value to the pet condition determining condition of the pet.

The remote pet management method according to the present invention may further comprise the steps of: calculating a warning value according to a criterion set for each of the pet risk conditions; Calculating a long term risk value according to a criterion set for each of the potential threats when the risk situation is released; and summing the warning value and the long-term risk value to give a risk value.

In the remote pet management method according to the present invention, the dangerous condition of the pet may include a food, a water intake, a defecation, a sleep, a heart beat abnormality, a temperature abnormality, a feeding abnormality, a water intake abnormality, Or more.

In the pet remote management method according to the present invention, the wearable device may be attached to each of a plurality of pets to determine a risk situation of each of the plurality of pets.

The pet remote management method according to the present invention is characterized in that the wearable device charges a battery using a wireless charging type wireless charger using a magnetic induction method.

According to another aspect of the present invention, there is provided a method for remotely managing a pet using a guardian terminal, the method comprising: receiving, from a wearable device attached to the pet through the server, the biometric information of the pet, Displaying the at least one or more countermeasures according to the biometric information of the pet, the location information, the dangerous situation, and the dangerous situation, and displaying the countermeasure according to the dangerous situation from the guardian And transmitting the control signal to the server, wherein the dangerous condition includes comparing the biometric information with a preset reference value, measuring the time of staying at a predetermined position of the pet, , The pet risk condition judgment condition includes a risk value And a step of assigning one or more of the following:

In the remote pet management method according to the present invention, the risk value is calculated by calculating a warning value set according to each criterion of the pet's risk situation, and when the pet is out of the risk situation, And the risk value is given by adding the warning value and the long-term threat value.

In the remote pet management method according to the present invention, the guardian terminal may be provided with a plurality of guardian terminals, which have been authenticated by the server, from the server, at least one or more of the biometric information, the location information, And displays a countermeasure.

According to the pet remote control method according to the present invention configured as described above, the risk situation of the pet is determined using the biometric information and the location information of the pet measured by the wearable device, and the determination result is transmitted to the caregiver terminal The present invention provides a method of remotely managing a wearable device in real time.

In addition, the wearable device not only optimizes the reference value and the danger range for measuring the surrounding information in consideration of the habit of the individual, but also can arbitrarily change it according to the situation of the guardian and the pet through the guardian terminal, It is effective to provide remote management method of pet which can be provided as.

1 is a view showing a wearable device of the present invention attached to a pet necklace.
2 is a configuration diagram showing a configuration of a wearable device of the present invention.
3 is a view illustrating indoor position measurement of a pet using a beacon module according to an embodiment of the present invention.
4 is a flowchart illustrating a pet remote management method according to an embodiment of the present invention.
5 is a flow chart for determining a meal of a pet according to an embodiment of the present invention.
FIG. 6 is a flow chart for determining water ingestion of a pet according to an embodiment of the present invention.
FIG. 7 is a flow chart for determining defecation of a pet according to an embodiment of the present invention.
FIG. 8 is a flow chart for determining the sleep of a pet according to an embodiment of the present invention.
FIG. 9 is a flowchart for determining a heartbeat abnormality of a pet according to an embodiment of the present invention.
FIG. 10 is a flow chart for determining abnormality of body temperature of a pet according to an embodiment of the present invention.
FIG. 11 is a flow chart for determining an eating disorder of a pet according to an embodiment of the present invention.
FIG. 12 is a flow chart for determining an abnormal water intake of a pet according to an embodiment of the present invention.
FIG. 13 is a flowchart for determining entry of a pet into a dangerous area according to an embodiment of the present invention.
FIG. 14 is a flow chart for judging the runaway of a pet according to an embodiment of the present invention.
15 is a flow chart for reporting the risk of a pet according to an embodiment of the present invention.
FIG. 16 is a flowchart for recording movement of a pet according to an embodiment of the present invention.
17 is a configuration diagram illustrating an extended pet management method according to an embodiment of the present invention.
18 is a diagram illustrating a pet remote management application displayed on a guardian terminal according to an embodiment of the present invention.

The present invention may have various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

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

First, a wearable device of the present invention will be described with reference to FIG. FIG. 1 is a view showing a wearable device of the present invention attached to a pet necklace. Referring to FIG. 1, the wearable device 100 is attached to an inner surface of a pet necklace. The camera 140 of the wearable device 100 protrudes from the outside of the pet necklace so that the protector can check the current state of the pet.

A specific configuration of the wearable device 100 will be described with reference to Fig. 2 is a configuration diagram showing a configuration of a wearable device of the present invention. The wearable device 100 includes a measurement unit 110, a wireless communication unit 120, an output unit 130, a camera 140, a battery unit 150, and a control unit 160.

The measuring unit 110 periodically measures information such as the exercise amount, heart rate, and body temperature of the pet wearing the wearable device 100, and transmits the obtained information to the control unit 160. [ The measurement unit 110 includes an acceleration sensor 111, a heart rate measurement sensor 112, and a temperature measurement sensor 113 according to information to be measured.

The wireless communication unit 120 includes a wireless communication module 121, a GPS module 122, and a beacon module 123 for transmitting and receiving data to and from an external device. The wireless communication module 121 may include one or more components that enable wireless communication between the wearable device 100 and the server 200, which is a local computing device, or the guardian terminal 300. Wireless communication can be performed using a communication method set among various communication methods such as Wifi, Bluetooth, RFID, infrared communication, UWB, and ZigBee.

The GPS module 122 is a module for confirming the position of the wearable device 100. The beacon module 123 is a module for measuring an accurate position of a room and the beacon module 123 is a locator, A beacon tag, and a beacon reader.

The indoor position measurement using the beacon module 123 will be described with reference to FIG. 3 is a view illustrating indoor position measurement of a pet using a beacon module according to an embodiment of the present invention. Referring to FIG. 3 (a), two locators 124 are attached to a specific location in the ceiling. The locator 124 calculates the x, y, and z coordinate values using the direction and angle of the wireless signal being received by the wearable device 100 worn by a pet moving in the room. Therefore, by attaching a beacon tag to the rice bowl 127, the water bowl 128, and the bowel pad 126, it is possible to confirm the current position of the pet, and thus the risk of the pet can be determined.

Referring to FIG. 3 (b), a beacon tag using a sticker 125 is attached to the rice bowl 127, the water bowl 128, and the defecation pad 126 to confirm the current position of the pet. It is also possible to accurately judge the risk situation of a pet. 3 (c), the sticker 125 may be additionally attached to a dangerous place such as a stove in the kitchen, so that the dangerous area can be directly set and managed by the guardian.

Returning to FIG. 2, the output unit 130 will be described. The output unit 130 includes an acoustic output unit 131 and an optical output unit 132. The audio output unit 131 operates according to an alert signal transmitted from the control unit 160 or an external instruction received through the wireless communication unit 120 and outputs a designated signal or audio data received from outside. For example, a guardian may issue a voice to deliver to a pet, such as giving a meal and a bowel movement instruction.

The light output unit 132 outputs the state of the wearable device 100 transmitted from the control unit 160. For example, a battery state or a charging state.

Next, the camera 140 is a component located outside the wearable device 100 so that the user can view the situation at the time of the pet. The camera 140 operates according to an external instruction received through the wireless communication unit 120 and can be used to confirm the current situation from the current caregiver.

The battery unit 150 supplies power required for the operation of each component under the control of the controller 160 and can use a wireless charging scheme using a magnetic induction method (QI). The pets can be naturally charged when they are rested or sleeping near the wireless charger installed in the room, so that the power can be continuously maintained, and the battery state of the wearable device 100 is also displayed.

Finally, the control unit 160 controls the operation of each component of the wearable device 100 as a whole, and can determine a dangerous situation using information measured from a pet.

Next, a method for remotely managing pets using the wearable device 100, the server 200, and the protector terminal 300 will be described with reference to FIG. 4 is a flowchart illustrating a pet remote management method according to an embodiment of the present invention. 4, the exercise amount, the exercise intensity, the heart rate per minute and the body temperature of the pet are measured using the acceleration sensor 111, the heart rate measurement sensor 112 and the temperature measurement sensor 123 of the wearable device 100 (S411).

The wearable device 100 includes an antenna and calculates the position coordinates of the wearable device 100 using one or more locators fixedly installed at specific positions on the ceiling of the room, The wearable device 100 transmits information stored when the wearable device 100 is accessed within a predetermined distance by using a plurality of beacon tags having the wearable device 100. By receiving the tag information transmitted by the beacon tag using the beacon reader built in the wearable device 100, Information is measured (S412).

After the wearable device 100 completes the measurement of the biometric information and the positional information, it determines a throughput according to the communication state with the server 200 (S413). Specifically, to check the network communication state between the wearable device 100 and the server 200, the throughput with respect to the reference value is compared to confirm the communication state.

The wearable device 100 or the server 200 determines the throughput according to the communication state between the wearable device 100 and the server 200 and then the wearable device 100 or the server 200 determines the dangerous situation using the biometric information and the positional information of the pet (S414). Specifically, when the throughput according to the communication state between the wearable device 100 and the server 200 is equal to or greater than the reference value, the biometric information and the positional information of the pet measured by the wearable device 100 are transmitted to the server 200 (S414-1 ), And determines the dangerous situation using the biometric information and the location information of the pet received from the server 200. The server 200 can store biometric information and location information of the pet measured by the wearable device 100.

When the throughput of the wearable device 100 and the server 200 is less than the reference value, the wearable device 100 determines the risk situation itself using the biometric information and the positional information of the pet, And outputs a warning sound and voice data. When the throughput according to the communication state becomes equal to or greater than the reference value, the wearable device 100 transmits the biometric information, the positional information, and the dangerous situation of the pet to the server 200 (S414-2).

In other words, the risk situation determination using the information measured by the wearable device 100 transmits the information to the server 200, and the risk is determined based on the information received by the server 200 In the case of an emergency in which an error such as a communication status failure between the wearable device 100 and the server 200 occurs, the calculation authority for determining the risk situation is delegated to the wearable device 100. [ The computing function may be included at least as compared with the server 200 according to the manufacturing conditions of the wearable device 100. [

On the other hand, the risk situation judgment compares the biometric information with a preset reference value, measures the time at which the position information stays at the preset position, and gives a risk value to the pet's risk condition judgment condition to judge the pet emergency situation . Here, the method of assigning the risk value is to calculate the warning value set according to each criterion of the pet's risk situation, to calculate the long-term risk value set according to each criterion of the potential threat, The calculated warning value and the long-term risk value are added together to give a risk value.

In addition, pet emergency includes one or more of meal, water intake, defecation, sleep, heartbeat abnormality, body temperature abnormality, feeding disorder, water intake abnormality, dangerous area entry, runaway. How to judge each pet emergency situation will be explained later.

Next, the guardian terminal 300 receives the biometric information, the positional information, and the dangerous situation of the pet from the server 200 (S415), and transmits the biometric information of the pet received by the guardian terminal 300, And displays at least one or more countermeasures according to the dangerous situation (S416).

The guardian terminal 300 receives the input selected by the guardian within at least one of the correspondences displayed by the terminal 300 (S417). The guardian terminal 300 displays an emergency situation of a pet and a corresponding countermeasure using the management application, and the guardian selects and inputs a countermeasure to the guardian terminal 300 through the display.

The guardian terminal 300 generates a control signal corresponding to the response received from the guardian and transmits it to the server 200 in step S418 and the wearable device 100 receives the guardian's control signal from the server 200 in step S419, .

The wearable device 100 outputs the stored warning sound or voice data according to the control signal of the received guardian (S420). This allows you to remotely manage your pet to escape the risk.

In addition, it is possible to set an emergency warning function to output a warning sound or voice data to the pet without a control signal of the user terminal 300 only in a specific dangerous situation. For example, when the pet approaches the dangerous place, the wearable device 100 sounds an alarm to prevent access. Accordingly, even when the server 200 fails to transmit a dangerous state to the guardian terminal 300 due to an abnormality in the connection state or can not receive the control signal, the wearable device 100 performs the minimum risk judgment calculation, The warning function can be used to prepare for a dangerous situation.

Next, a method for determining an emergency situation of a pet in the wearable device 100 and the server 200 will be described in detail. 5 is a flow chart for determining a meal of a pet according to an embodiment of the present invention. Referring to FIG. 5, the beacon module 123 of the wearable device 100 is used to check whether the pet has entered the set distance of 15 cm from the rice bowl to which the beacon tag is attached (S510) Upon approaching within 15 cm of the attached rice bowl, the wearable device 100 starts measuring the initial contact time (S520). The beacon tag attached to the rice bowl can transmit the tag information when approaching within a predetermined distance, and the wearable device 100 can measure the position.

Next, the wearable device 100 checks whether the initial contact time is equal to or greater than the reference contact time value (S530). When the wearable device 100 satisfies the condition that the wearable device 100 is at or above the reference contact time value, it is determined that the pet has started eating in front of the rice bowl and the contact start time is recorded in the log (S540).

After the start time of the contact is recorded in the log, it is checked whether the pet continuously deviates from the 15 cm radius near the rice bowl to which the beacon tag is attached (S550). When it is confirmed that the user leaves the radius of 15 cm near the rice bowl, the contact time measurement of all kinds including the initial contact time is terminated and the timer is measured for 120 seconds (S560).

The reason for measuring 120 seconds here is to judge that the pet has spent a long time in a single place and has walked around the rice bowl and has eaten rice several times. Including the act of wandering around the rice bowl up to five times after the meal. To determine this, set the maximum value of the variable called mealcheck to 5, which defaults to zero every time.

In addition, the total meal time is divided by the initial contact time and the additional contact time to give accurate statistics of the measured values. The first time after the judgment of the meal, when the pet enters the rice bowl 15cm radius with the beacon tag and stays longer than the reference contact time, the duration is measured at the value of the initial contact time, The situation in which a meal is re-entered and re-entered is measured using the value of the additional contact time.

Next, in step S570, it is confirmed whether the pet has entered the rice bowl radius 15 cm again during the measurement of 120 seconds using the timer (S570). If the accumulated number of meal check variables is less than 5, the meal check variable is increased by 1 (S582), and the additional contact time is newly measured (S584). Here, when the cumulative number of the meal check variables is five or more, it is determined that one meal has ended without adding any information on the meal judgment. The contact start time, the initial contact time, the additional contact time, Is recorded in the log and the eating habit is noted (S586). The eating habits notation may be additionally posted to indicate that the user has distracted eating habits when data is transmitted to an external device such as the caregiver terminal 300. [

On the other hand, if more than 120 seconds elapse while leaving the circumference of the rice bowl, the determination of one meal is finished and the contact start time, final meal check value, initial contact time, additional contact time and total meal time are stored in the log (S575).

After the determination of the meal once, the subject having the current computing authority among the wearable device 100 or the server 200 confirms whether there is a history in which the reference contact time is changed. The reference contact time value refers to a value calculated on a month-by-month basis, reflecting the accumulated measurement value. Accordingly, it is confirmed whether the device is used for less than one month (S590). If it is less than one month, the reference contact time is maintained at 5 seconds which is the factory initial value (S591).

If the device is used for more than one month, it is checked whether the reference contact time has been changed within one month (S592). If there is no change in the reference contact time within a month including the case where the reference contact time has not been changed or the reference contact time has changed more than one month, the reference contact time is maintained as the current value (S593) The time is newly calculated. At this time, a total of 40% of samples are extracted from 20% of the upper and lower sides and 5% of the initial value of the factory, and the new reference contact time is defined as a new reference contact time (S594).

Here, the total log of the cumulative measurement values is also averaged over a long period of time by averaging the long-term baseline contact time in the same manner, so that the longer-term eating habits tendency can be grasped and compared with the baseline contact time. Since the number of cases in which the eating habit changes as a sign of preference or a health abnormality in the process of changing the kind of food in the case of a pet is large, an analytical approach to the difference of the numerical value is a method of collecting test data of the wearable device 100 This will be implemented more sophisticatedly. Likewise, if the sample is accumulated, a significant difference in species can be found by the big data analysis.

Finally, the measurement information and the judgment information are transmitted to the guardian terminal 300, which is an external device, through the server 200, and the value of the meal check, the contact start time, Time, and the value of the additional contact time are initialized (S595).

Next, with reference to FIG. 6, a description will be given of the determination of water ingestion in an emergency situation of a pet. FIG. 6 is a flow chart for determining water ingestion of a pet according to an embodiment of the present invention. Water intake judgment is similar to eating judgment, but water intake is generally set to 3 seconds because the duration of one meal is shorter than that of eating. 6, the wearable device 100 confirms whether the pets have entered a radius of 15 cm from the water bowl to which the beacon tag is attached (S610) using the beacon module 123, and if the pet is within 15 cm of the water bowl radius At the time of entry, the initial contact time measurement is started using a timer (S620).

In the initial contact time measuring state, the wearable device 100 confirms whether the initial contact time is equal to or longer than 3 seconds, which is the reference contact time (S630). When the initial contact time is less than 3 seconds, If it is determined that the initial contact time is 3 seconds or more, it is determined that water is consumed and the time when the pet starts to contact the water container is recorded in the log (S640).

After the contact start time is recorded in the log, the pet is continuously checked whether or not the radius is 15 cm away from the water bowl (S650) in order to determine the situation. When the water bowl radius is 15 cm, the contact time measurement of all kinds including the initial contact time is stopped and the timer is measured for 120 seconds (S660). In this case, the wearable device 100 is not limited to a case where a pet is swallowed at the same time as a meal decision, but also a case where the user walks around without drinking for a long time and drinks water several times little by little And the detailed contents are the same as the judgment of the meal, so that it is omitted.

(S670). When the pet enters the water bowl radius of 15 cm, the cumulative number of water check variables is checked (S680). If the cumulative number of water check variables is less than 5, the water check variable is increased by 1 (S682), and the additional contact time is newly measured (S684).

If the cumulative count of water check variables is 5 or more, and if the pet does not enter again within 15 cm before the end of the 120-second measurement result timer with the timer, the single water intake determination is terminated, And initializes variables used for water consumption determination (S690).

Next, we explain how to judge defecation in pet dangerous situations. FIG. 7 is a flow chart for determining defecation of a pet according to an embodiment of the present invention. Referring to FIG. 7, the wearable device 100 uses the beacon module 123 to check whether the pets are approaching the radius of 20 cm on the defecation pad having the beacon tag attached thereto (S710). Here, 20 cm is the initial value of the radius of the bowel pad, and the distance value can be changed according to bowel pad.

The wearable device 100 starts measurement of the contact time when the balloon pad radius reaches 20 cm using the timer (S720) and confirms whether the measured contact time satisfies the condition of 5 seconds or more, which is the reference contact time (S730) It is determined that the pet performs a bowel movement and the contact start time is recorded (S740). If the reference contact time condition is not satisfied, the contact time measurement is terminated (S735).

After the determination of the pet's bowel movement behavior, it is confirmed whether or not it has deviated from the bowel pad radius of 20 cm (S750). When the pet leaves the bowel pad radius of 20 cm, the contact time measurement is terminated and the bowel movement start determination and the bowel movement time value Save it to the log. Finally, measurement information and judgment information are transmitted to an external device such as the caregiver terminal 300, and defecation judgment variables are initialized (S760).

Next, a description will be given of a method for determining the sleep state in the emergency situation that the wearable device 100 or the server 200 judges. FIG. 8 is a flow chart for determining the sleep of a pet according to an embodiment of the present invention. Referring to FIG. 8, the wearable device 100 measures the current heart rate of a pet and checks whether it is in a range judged to be sleeping (S810). The pet is judged to be sleeping when the current heart rate of the pet is located between the average sleeping heart rate and the minimum heart rate defined in Table 1 below.

Bell Average heart rate Mean sleeping heart rate Minimum heart rate standard Maximum heart rate standard Small dog 100-180 Average heart rate * 0.9 40 320 Large bell dog 60 ~ 160 Average heart rate * 0.9 30 310 puppy 160 ~ 220 Average heart rate * 0.9 50 320 cat 120 ~ 240 Average heart rate * 0.9 50 340 Default 60 to 240 Average heart rate * 0.9 30 340

If it is determined that the current heart rate of the pet is included in the range not less than the average sleeping heart rate and the minimum heart rate, if it is not included in the range, it is determined that the sleeping state is not the normal mode (S815). Likewise, if it is confirmed that it is included in the above range, if it is within the above range, it is checked whether the pet stops for 10 minutes or more without moving in one place (S820). If it is determined that there is no motion, it is judged that the sleep mode is not the normal mode (S825). If there is no motion, the sleep mode is determined (S830). Specifically, for example, in the case of a dog, since the range of the sleeping heart rate is usually formed at 144 to 198, the sleeping mode can be determined when the current heart rate is 150, and the dog does not move for more than 10 minutes . When the pet enters the sleep mode, the sleep determination time is recorded, the total sleep time is measured by the timer until the sleep mode is woken, and the coordinate information of the sleeping position of the pet is also recorded in the log.

On the other hand, pets vary in average sleep time per day depending on species. Generally, the time that a cat sleeps in a day is longer than a dog. Therefore, it is necessary to consider this kind of difference in order to judge that there is an abnormality in health when the sleeping time is exceptionally long, unlike usual. According to the following Table 2, the reference sleep time to be the basis for judging the health condition was defined according to the species.

Bell Average sleep time Above standard sleep time puppy 10 hours 15 hours cat 12 to 20 hours 23 hours

Next, after determining that the pet is in the sleep mode, it is determined whether the pet is in the continuous sleep mode for more than the predetermined time (S840). If the sleeping time of the pet is equal to or longer than the reference sleeping time, the warning value 5 is added to the entire risk value judged by the wearable device 100 or the server 200, And transmits a warning message to the guardian terminal 300 (S850). Here, we will explain the warning figures and risk figures in detail using tables and drawings.

Hereinafter, a method of determining the sleep of a pet is confirmed, and a method of determining a heart rate abnormality of a pet by referring to FIG. 9 will be described. FIG. 9 is a flowchart for determining a heartbeat abnormality of a pet according to an embodiment of the present invention. First, the wearable device 100 measures the current heart rate of the pet and confirms whether the heart rate is equal to or greater than the maximum heart rate shown in Table 1 (S910). If the current heart rate is less than the maximum heart rate, (S920).

If the current heart rate of the pet is higher than the maximum heart rate or the heart rate is lower than the minimum heart rate, the pet heart rate shows an exceptional abnormality. Therefore, the warning value 25 belonging to the high risk group is added to the overall risk, (S915).

If the current heart rate of the pet is within the range of the maximum heart rate and the minimum heart rate, it is determined whether the pet is currently in the sleep mode (S930). Since the method for determining the sleep mode is described with reference to FIG. 8, the determination method will be omitted here.

If it is determined that the sleep mode is not the sleep mode, the estimated heart rate is compared with the current heart rate, and it is determined whether the difference is 30 or more (S940). Here, the expected heart rate is a variable that simultaneously takes heart rate and momentum. We used the fact that heart rate and exercise intensity were directly proportional to each other during exercise. The wearable device 100 or the server 200 compares the exercise intensity with the heart rate to determine an abnormal state in which the heart rate is still low even though the heart rate has been high for a while or the heart rate has increased for a while, Can be transmitted.

Accordingly, basically, the health state is measured by comparing the increase and decrease of the exercise intensity and the heart rate, and the estimated heart rate value which gives the weight by taking into consideration the influence of the exercise time when measuring the exercise intensity is used. If the current heart rate is significantly lower or higher than the expected heart rate, it is considered a risk. In the computation of the expected heart rate, a composite product is used. In the following equation (1), f denotes a function for obtaining the exercise intensity, and g denotes a function for obtaining the exercise time.

In this way, when calculating the intensity of motion to be compared with the heart rate, considering the influence of time, it is possible to find not only the intensity at one point but also the intensity considering the motion at the previous point. This makes it possible to correct an error that can occur when comparing with a heart rate by judging whether the movement of a point is simply moving or not. For example, if you are suddenly stopped during exercise and your heart rate is high, but you do not have any movement, you may be prevented from judging a dangerous situation if your heart rate has not yet increased after you start exercising.

Returning to the step of comparing the estimated heart rate with the current heart rate, if the estimated heart rate is different from the current heart rate by 30 or more, it is checked again whether the estimated heart rate and the current heart rate record a difference of 50 or more (S950).

If it is determined that the expected heart rate and the current heart rate are different by 50 or more, an alert value of 20 belonging to the high risk group is added to the entire risk, and at the same time, a warning message is transmitted to the external device (S955). On the other hand, if the estimated heart rate and the current heart rate are 30 or more and less than 50, a warning value 5 belonging to the middle risk group is added to the entire risk, and at the same time, a warning message is transmitted to the external device (S960).

We have discussed how to determine heart rate abnormalities. Next, a method of judging abnormality in body temperature will be described with reference to FIG. FIG. 10 is a flow chart for determining abnormality of body temperature of a pet according to an embodiment of the present invention. First, the wearable device 100 measures the current body temperature of the pet and confirms that the value is 39.5 degrees or less, which is the high abnormal body temperature reference defined in Table 3 (S1010).

Normal body temperature High abnormal body temperature standard Low abnormal body temperature standard 38 to 39 degrees 39.5 degrees 37 degrees

If the current body temperature of the pet exceeds 39.5 degrees, a warning message is transmitted to the external device after adding the warning value 25 belonging to the high risk group to the entire risk (S1015). If it is confirmed that the current body temperature is 39.5 degrees or less, 100) checks whether the current temperature of the pet exceeds 37 degrees, which is the low abnormal temperature temperature reference according to Table 3 (S1020).

If the current temperature of the pet is 37 degrees or less, a warning message 25 belonging to the high risk group is added to the overall risk, and a warning message is transmitted to the external device (S1025). If the current temperature of the pet is less than 37 degrees or more than 39.5 degrees, it is determined that the temperature of the pet is abnormal and the warning message is transmitted to the guardian terminal 300. [

Next, a method of judging the eating disorder of a pet will be described with reference to FIG. FIG. 11 is a flow chart for determining an eating disorder of a pet according to an embodiment of the present invention. First, the wearable device 100 or the server 200 calculates a meal vacancy (S1110). Here, the meal gap is calculated by calculating how much time has elapsed since the last meal end record to the present, giving a weight of 0.4 to the sleeping time of the pet. The reason is that if a pet sleeps for a relatively long time, it will spend a considerable amount of time from the end of the last meal, so that it will want to place a greater weight on awake and not eating.

Therefore, there is a calculation formula of 'meal empty period = time flowing from last meal end record to present time - total sleep time in between + 0.4 (total sleep time occurring therebetween)'. If the calculation formula is summarized, 'meal gap = the time from the last meal end record to the present time - (0.6 * the total sleep time in between)'.

As a result of the calculation, it is determined whether the current meal empty period exceeds 10 hours (S1120). If the check result exceeds 10 hours, the warning value 20 belonging to the high risk group is added to the entire risk, and a warning message is transmitted to the external device (S1130).

As for the method of judging the above-described eating disorder of the pet, for example, about 15 hours have passed since the last time the pet dog finished eating, and in the case where the puppy sleeps for 8 hours for 15 hours, The total meals gap is calculated as 10.2 hours. Therefore, since the meal break period exceeded 10 hours, it is judged that the meal has not been eaten for a long time and a warning message 20 can be added and a warning message can be transmitted to the external device.

Next, I will explain how to judge the pet's water intake abnormality. Water intake abnormalities are judged by the same method as the feeding disorder. This will be described in detail with reference to FIG. FIG. 12 is a flow chart for determining an abnormal water intake of a pet according to an embodiment of the present invention. First, the wearable device 100 or the server 200 calculates a water vacancy of a pet in the same manner as the determination of an eating disorder abnormality (S1210). The water gaps are calculated by calculating how much time has elapsed since the last water ingestion record to the present time, and the method is the same as the meal gating operation and is omitted.

Next, it is determined whether the current water empty time calculated in the water empty operation step exceeds 10 hours (S1220). As a result of checking, if the water empty period exceeds 10 hours, the alert value 20 belonging to the high risk group is added to the entire risk level and a warning message is transmitted to the external device (S1230). The method of judging the water intake abnormality is the same as the method of judging the abnormality of the meal, so a specific example is omitted.

Next, a method for judging the entry of a pet into a dangerous area will be described with reference to FIG. FIG. 13 is a flowchart for determining entry of a pet into a dangerous area according to an embodiment of the present invention. First, the wearable device 100 confirms whether the pet enters the beacon tag radius of 15 cm from the guardian in the set dangerous area (S1310). When the beacon tag radius reaches the set value, the timer is used to measure the time (S1320), and it is confirmed whether it stays for more than 3 seconds without departing from the dangerous area (S1330).

Here, the wearable device 100 confirms whether the beacon option in the dangerous area corresponds to a high risk area preset by the guardian (for example, a fire or an electric shock dangerous area) (S1340) A warning value 20 belonging to the high risk group is added and a warning message is transmitted to the external device (S1350). On the other hand, if the dangerous area where the pet enters is not a high-risk area, an alert value 5 belonging to the intermediate risk group is added to the entire risk, and a warning message is transmitted to the external device (S1345).

Next, a method for judging whether or not the pet is in danger is explained with reference to FIG. FIG. 14 is a flow chart for judging the runaway of a pet according to an embodiment of the present invention. First, it is confirmed whether the wearable device 100 has deviated from the detection range of the locator 124 installed in the room as shown in FIG. 3 (S1410). If it is determined that the wearable device 100 has departed from the detection range, the GPS module 122 confirms whether the GPS coordinates of the wearable device 100 are deviated from the home (S1420).

If it is confirmed that the coordinates of the wearable device 100 sensed by the locator 124 and the GPS module 122 are out of the home, it is determined whether or not the wearable device 100 is separated by a radius of 5 m or more from the guardian terminal 300 (S1430). Although the coordinate of the wearable device 100 is not detected as a house, the guardian and the pet may be out together. Therefore, the wearable device 100 is not regarded as a runaway mode when it is within a radius of 5 m from the guardian terminal 300 even outdoors. However, if a person is walking in a large area or freely releasing a pet, the guardian can change the mode to the outgoing mode in the preference setting or change the default detection area in the runaway mode by changing the set value. This can be suitably used depending on the situation and the convenience of the caregiver.

On the other hand, when the wearable device 100 is out of the home and is more than 5 meters away from the guardian terminal 300, a warning value 25 belonging to the high-risk group is added to the entire risk, and a warning message attaching coordinate values to the external device is transmitted (S1440). At this time, the wearable device 100 is changed to the runaway mode, and a position confirmation function showing the real time position and the movement route of the pet is automatically displayed in priority order each time the caregiver terminal 300 executes the management application.

The wearable device 100 continuously checks whether the pet enters within 5 m of the guardian terminal 300 or whether the coordinates of the GPS module 122 and the locator 124 are detected again at home in operation S1450. If the condition is not satisfied yet, it is checked whether the coordinate value and warning message have been transmitted for 10 minutes (S1460), and the coordinates and warning message transmission are repeated (S1470).

Here, when the vehicle enters within 5 m of the guardian terminal 300 or when the coordinates of the GPS module 122 and the locator 124 are detected again, the warning value 25 added due to the runaway mode is removed from the entire risk level and the runaway mode is canceled (S1455). For example, even if a protector searches for a pet and succeeds in encounters and captures in the outdoor, it is determined that the runaway mode is completed because the pet satisfies the condition that the pet enters the vicinity of the guardian terminal 300 within 5 m.

Next, the risk value and risk reporting system described in FIGS. 8 to 14 will be described with reference to FIG. 15 is a flow chart for reporting the risk of a pet according to an embodiment of the present invention. The various risk situations that can occur first are defined in Table 4.

Risk step Types of risk situations Warning figure Long-term risk figure The Heart rate too high or low 25 10 The Body temperature is too high or too low 25 10 The If the difference between the expected heart rate and the current heart rate is more than 30 20 8 The If you have not eaten more than 10 hours 20 5 The If you have not drunk water for more than 10 hours 20 5 The If you escape from your home 25 - The Enter the high risk area you set 25 - The If the average momentum is significantly less than 20% - 10 The If the device is broken or a device malfunction occurs 20 - medium If the difference between the expected heart rate and the current heart rate is 20 or more 5 2 medium Entering the set hazardous area 5 - medium If you continue sleeping for more than the standard sleep time 5 2 medium If the average momentum is less than 50% of the previous average momentum - 2 that When the wearable device battery is low One - that If it is determined that the bowel pad needs to be replaced One -

Overall risk is the sum of the warning and long-term risk values, which is a parameter that allows the caregiver to see at a glance the degree of overall threat posed by the pet. The risk parameters collectively identify and warn of situations where multiple risk situations occur at the same time, or where there are potential threats, even though the immediate risk conditions are out of scope.

First, the wearable device 100 or the server 200 enters a dangerous situation and checks whether the warning value is added (S1510). When the warning value is newly added, (S1520).

If the newly added warning value is 20 or more, it is continuously checked whether the current condition is out of the dangerous condition (S1530). If the new warning value is 20 or more, (S1532). If the new alert number is greater than 20 and the pet is out of dangerous conditions, remove the new alert number from the total risk again (S1550) and check if the type of risk removed is a long-term risk value (S1560). If there is a long-term risk value, the long-term risk value corresponding to the total risk is added (S1570).

The concept of long-term risk figures is introduced here in situations where risk conditions are not immediately available, but there are potential threats to watch over time. For example, when the body temperature of the pet becomes excessively high in Fig. 10, the risk level report of Fig. 15 is performed while the warning value 25 is added. Even if the temperature returns to normal after a certain period of time, it may be due to some unusual change in health, so for a while, the caregiver needs to pay attention through a hospital checkup or continuous observation. Therefore, even if the temperature drops back to steady state, the warning value 25 is subtracted from the overall risk, but the long-term risk value 10 is again added to the overall risk. That is, the overall risk still indicates that there is some indication of a potential threat to the present through the long-term risk value, and the detailed details can be confirmed using the management application at the guardian terminal 300.

In addition, there is no warning value and only a long-term risk value is provided by a statistical analysis of data accumulated to some extent, such as a sudden drop in the average momentum, that is, a risk that is recognized over a long period of time. This situation will be described in Fig.

If the newly added warning value is less than 20, it is checked whether the pet is out of the dangerous condition (S1540). If it is out of the dangerous condition, the newly added warning value is subtracted from the total risk value (S1541). Next, it is checked whether the type of the deducted risk situation has a long-term risk value (S1542). If the long-term risk value is confirmed, the long-term risk value corresponding to the total risk is added (S1543).

Thus, the method of reporting the risk for the warning values in Figs. 8 to 14 was confirmed. Next, a method of recording a pet's movement will be described with reference to FIG. FIG. 16 is a flowchart for recording movement of a pet according to an embodiment of the present invention. Here, the current average momentum is a calculation of the momentum and the average value from the current point of view to a month before. The caregiver can set the period during which the setting is used to automatically compare with the average value of the most recent month's momentum. In addition, the default for automatic comparisons is a variable named 'Existing Average Momentum', which is set to the average of the momentum from the last two months to the last month.

In order to record the movement of the pet, first check whether the current average momentum is less than 20% of the pet's conventional average momentum (S1610). If the result is less than 20%, the long-term risk value is added to the total risk and the warning message is transmitted to the external device (S1615).

On the other hand, if the current average momentum is 20% or more of the pet's existing average momentum, it is confirmed that the current average momentum is less than 50% of the pet's existing average momentum (S1620). If the current average momentum is within 20% to 50% of the pet's existing average momentum, add a 2 long-term risk value to the overall risk and send a warning message to the external device (S1625).

Next, a method for expanding the pet management method will be described with reference to FIG. 17 is a configuration diagram illustrating an extended pet management method according to an embodiment of the present invention. Referring to FIG. 17, the wearable device 100 or the server 200 can measure the biometric information and the positional information of each of the plurality of pets from 1 to n, and determine a dangerous situation.

The guardian terminal 300 may be configured as a representative guardian terminal of a management account having all rights of an account and a general guardian terminal delegated some authority. And can be connected to one or a plurality of wearable devices 100 through an account. The guardian possessing the management account registered in the server 200 can be connected to the plurality of wearable devices 100 by using the guardian terminal 300 to manage the respective pets.

In addition, the guardian terminal 300 may include a plurality of guardian terminals delegated general authority other than the representative guardian terminal. This allows multiple pets to be remotely managed together by multiple protectors, and when extended, multiple protectors can remotely manage multiple pets together. However, the general guardian terminal may be restricted from changing various setting values or data modification right.

Finally, a method for remotely managing pets using the management application at the caregiver terminal 300 will be described. 18 is a diagram illustrating a pet remote management application displayed on a guardian terminal according to an embodiment of the present invention. First, the management application is a responsive web application that can be used in a variety of devices that can read HTML5 without platform and resolution constraints. More specifically, referring to FIG. 18, the functions that can be operated on the display of the application are largely divided into the function of the tab and the function of the environment setting.

Here, the functions of the tabs are four representative management functions indicated in the application. Specifically, it consists of timeline, location confirmation, monitoring, and activity record. When a parent clicks a desired function, the corresponding tab is activated and the relevant content is displayed in the largest frame.

The timeline is a function for browsing pet behavior records. More specifically, each time the behavior record is updated, a table containing the information in the timeline of the guardian terminal 300 is added in a vertical form, and a warning message prompting the parent to confirm is sent together with predetermined conditions. The type of behavior record consists of meal information, sleep information, notification of whether or not to charge, and notification of entry into dangerous situations. The information on the timeline is read from the server 200. If the user scrolls the scroll bar downward and drags the scroll bar once to the wife, the user can read the older date information. You can also click on the table containing each information to view more information.

In the case of meal information, additional information is displayed in red text if the dietary habits are divergent, along with the meal time, total meal time, number of meals on that day, water intake time, total water intake time, In the case of sleep information, the sleep start time, total sleep time, and sleeping place can be viewed. In the case of a charge notification, the pet approaches the wireless charger, indicating the time at which the wireless charging started, the time at which the wireless charging started, and the amount of charge. For risk entry notifications, describe the types of risk situations listed in Table 4.

The location is indicated by coordinates using the beacon module 123 when the pet stays indoors. In the runaway mode, the route and current position of the pet are displayed on the map using the measured GPS data so that the guardian can inquire. On the map, there are a scale, a screen enlargement / reduction button, a distance view button, a target selection (current position of a pet, a current position of a guard) button, and a general map / satellite map conversion button.

Monitoring is a function of observing the current situation in real time from the viewpoint of a pet by using the camera 140 attached to a position facing the front of the wearable device 100. [ The monitoring submenu includes the ability to send a message to a guardian, and the ability to operate peripheral devices (eg, a registered remote feeder).

The activity log is a function that can display the statistics and the risk of the pet's activity record, and can display the statistical analysis result of accumulated information of the pet. Statistics on activity records include graphs of time, as well as information such as exercise, heart rate, temperature, meals, excretion, and average behavior patterns over time. You can view and compare statistics based on various criteria such as day, week, month, 3 month, 6 month, 1 year, full range, arbitrary period setting.

Risk is a comprehensive visualization of the current state of a pet using parameters called risk (warning and long-term) values. At the bottom of the risk list is a list of the major risks that make up the current risk. The level is classified according to the level of risk, and the bars of risk are displayed in different colors of each series, so that the guardian can understand the situation more intuitively.

Next, the environment setting is a function that enables the caregiver to manage the application and the connected wearable device 100 in more detail. Specifically, it is divided into a guest (guest) and an administrator (Admin only) that can be used according to the authority of the guardian terminal 300.

The guest can set the environment of the management application currently being used by the guardian terminal 300. [ The submenu consists of an App setting, an alert setting, a battery setting, and a customer support. The guest function can be freely set by both the representative guardian terminal managing the account or the general guardian terminal.

Also, the guest can be used without limitation if the guardian terminal 300 is a remote management subject belonging to one management account regardless of the representative guardian terminal or general guardian terminal. For example, a wife of a family member in a two-person household that feeds a dog generates an account with an ID and a password on the server 200 using a smart phone as its guardian terminal 300. At this time, the used smart phone is set as the representative guardian terminal and has authority as an account manager, and registers the wearable device 100 object worn by the dog to the management object. In this case, the husband's smartphone can be set as a general guardian terminal by using the representative guardian terminal, and the wearable device 100 object registered in advance by using the husband's smartphone can be set as two smartphones, that is, To be managed simultaneously. At this time, the guest function is available to both the wife's smartphone and her husband's smartphone.

Next, I will explain the guest submenus. App settings are related to the overall management application being used. Specifically, it consists of language setting, font setting, and sound setting.

The notification setting is a detailed setting for notification of a warning message that the current parent terminal 300 is receiving from the management application. Notification settings can be broadly divided into global notification settings and detailed notification settings.

In the case of the global notification setting, the guardian can select the type of notification from vibration, sound, silence, whether or not the popup window is displayed when receiving a message, and the time zone during which the notification is not received.

In the case of the detailed notification setting, you can set the situation that you want to receive the notification. For example, if your pet's recent health condition is not good, you can also specify that you want to be alerted each time you eat, and the meal alert can be set to a silent or pop-up notification that is independent of the entire notification setting. . As another example, in the runaway state where the warning value is 20 or more, it is the default setting to retransmit the warning message every 10 minutes, but the retransmission function can be turned off or the retransmission interval can be changed to 5 minutes.

The battery setting is a function for determining the degree of the battery of the wearable device 100 at present. If the battery is low, the administrator's mode change function can temporarily freeze some functions to further extend battery life.

Customer support consists of version information, problem reports, announcements, and additional service support. The wearable device 100 can be used to report problems found so that they can be corrected. In the additional service support, the firmware included in the wearable device 100 (including the status determination method and management function used in the control unit 160 of the wearable device 100) can be updated. However, in the case of an update directly related to the built-in function of the wearable device 100, it can be used only when the guardian terminal 300 has the representative guardian terminal or equivalent authority.

The manager is a function that can manage the connected wearable device 100 in more detail. Since the detailed setting and operating conditions of the wearable device 100 can be directly modified by the function, only a guardian having the representative guardian authority of the management account can access the apparatus.

Specifically, the representative guardian terminal or the guardian terminal 300 having the authority equivalent thereto can use the function of the administrator, but generally the general guardian terminal does not have the corresponding function activated. However, the administrator function can be selectively delegated to a specific general guardian terminal according to the selection of the representative guardian terminal.

Next, the submenu of the administrator consists of account management, beacon management, setting value input, statistics setting, camera setting, audio setting, data management, and mode change.

The account management comprises management of the currently connected parental account, management of the wearable device 100 linked to it, and general parental terminal management function. You can log out of the current parent account or change the password. In addition, the wearable device 100 can be registered or deleted by using a unique code possessed by each wearable device 100 so that the wearable device 100 can be managed by one protector account. In the case of the general guardian terminal management function, the representative guardian terminal of the account can add another guardian terminal 300 capable of managing the wearable device 100 as a general guardian terminal and delegate authority.

The beacon setting function is to register / delete / set / name a beacon tag using the sticker 125 on the home of the protector. The sticker 125 can be used to designate the rice bowl 127, the water bowl 128, and the bowel pad 126 and set the danger zone.

For example, since a gas stove in a kitchen is a dangerous space in which a fire may occur, if a sticker 125 is attached to a beacon tag and the beacon tag is registered using the beacon setting menu, a beacon reader of the wearable device 100 is installed Beacon information transmitted from the beacon tag can be received.

When the pet is approached to the area, the guardian terminal 300 notifies the pet that the pet currently approaches 'near the gas range' Receives the message and judges the current situation as a high risk situation.

In addition, the beacon setting can be set by adjusting the entering radius and the tag time for each corresponding beacon tag. The default value is set to 15 cm, but for some hazardous areas, the guardian can change the radius to 50 cm. Similarly, the guardian can arbitrarily change the three most basic beacon tags, the entry radius of the meal, water intake, bowel movements, and the reference contact time. In particular, since the size of the bowel pad 126 differs from one guardian to another, it is recommended that the entrance radius of the beacon tag provided on the bowel pad 126 is changed to match the radius of the bowel pad 126.

Next, in the case of setting value input, the guardian can arbitrarily change the condition judgment condition judged by the wearable device 100. That is, the protector arbitrarily designates the reference value of the behavior judgment or the dangerous situation judgment so that the device can be used in consideration of the specificity of the pet individual.

For example, the default value of the runaway mode condition is set such that the wearable device 100 is located at a distance of 5 m or more from the guardian terminal 300, but it may be changed to 10 m so as not to determine the runaway distance of 5 m. As another example, the wearable device 100 basically judges that the puppy sleeps for 15 hours or more based on the criteria for abnormal sleep behavior, but may change it to 10 hours for the caregiver arbitrarily. As another example, the duration of a long-term risk value in a risk calculation can be changed to a month, although the default value is one week.

Settings for meal, water intake, and bowel movement can also be changed in this menu, but beacon settings can be changed using the beacon tag.

The statistical setting is similar to the setting value input, but it mainly changes the setting value for the function of analyzing accumulated data for long time. For example, as described in FIG. 16, the average momentum of a pet is measured in a month, but the average momentum may be measured in units of a week.

The camera setting is a function that can change settings for the camera 140 attached to the wearable device 100. [

The audio setting is a function that can change settings for the sound output unit 131 attached to the wearable device 100. [

The data is the function of exporting, importing, and storing the accumulated data of the managed pet entity currently stored in the server 200 to a file.

The mode change is a function that can change the setting related to the operation mode of the wearable device 100. [ The outgoing mode can be simply changed so that the pet can not be diagnosed as being out of the way even if the distance exceeds a radius of 5 meters around the protector terminal 100 when going out for a walk. Also, the power of the wearable device 100 may be temporarily stopped (or turned on and off by the power supply device of the wearable device), or the battery duration may be lengthened by turning off some functions.

In addition, when one parental account manages a plurality of wearable devices, a new tab is created and a list of currently-managed wearable devices 100 can be seen at a glance, and the detailed management screen can be switched by clicking the corresponding tab.

Thus, a method of remotely managing a pet by using the management application of the guardian terminal 300 has been described. The distance value, the measurement time, and the like used in the present specification are not limited to the above values in the present specification.

In addition, the embodiments of the present invention described in the specification and the configurations shown in the drawings relate to the most preferred embodiments of the present invention and do not cover all the technical ideas of the invention. Therefore, It is to be understood that equivalents and modifications are possible. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments, and that various modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. , Such changes shall be within the scope of the claims set forth in the claims.

100: wearable device 110: measuring part
111: acceleration sensor 112: heart rate sensor
113: Temperature measurement sensor 120: Wireless communication unit
121: Wireless communication module 122: GPS module
123: Beacon module 130: Output section
131: Acoustic output unit 132: Optical output unit
140: camera 150: battery unit
160: control unit 200:
300: Protector terminal

Claims

A method for remotely managing a pet by using a wearable device attached to the pet,
Measuring the biometric information of the pet using the detection sensor of the wearable device;
The wearable device measuring position information of the pet using a GPS module or a beacon module;
Determining a throughput according to a communication state of the wearable device with the server;
The wearable device or the server judging a dangerous situation of the pet by using the biometric information and the location information of the pet according to the determination result;
The wearable device receiving a guardian's control signal from the server; And
And the wearable device outputting the stored beep or voice data according to a control signal of the guardian,
Wherein the step of determining the throughput comprises:
Wherein the wearable device transmits the biometric information and the positional information of the pet to the server to guide the server to determine the dangerous state of the pet when the throughput is equal to or greater than a reference value.

The method according to claim 1,
Wherein the step of measuring the biometric information comprises:
Measuring an exercise amount and an exercise intensity of the pet using an acceleration sensor;
Measuring a heartbeat per minute of the pet using a heart rate sensor; And
Measuring a body temperature of the pet using a temperature measurement sensor; &Lt; RTI ID = 0.0 > 1, < / RTI >

The method according to claim 1,
Wherein the measuring the position information comprises:
Calculating positional coordinates of the wearable device by using at least one locator having an antenna and fixedly installed at a specific position of the ceiling of the room;
Transmitting information stored when the wearable device is accessed within a set distance using a plurality of beacon tags having individual code information; And
And receiving tag information transmitted by the beacon tag using a beacon reader built in the wearable device.

The method of claim 3,
Wherein the plurality of beacon tags comprise:
Wherein the beacon tag is attached / marked within an indoor activity radius of the pet to set a reference area for each of the dangerous conditions of the pet, and transmits the tag information when the pet approaches the reference area, Wherein said pet remote control method comprises the steps of:

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The method according to claim 1,
Wherein the step of determining the throughput comprises:
Wherein the wearable device determines a dangerous situation of the pet by itself based on the biometric information and the positional information of the pet when the throughput is less than a reference value and outputs the warning sound or voice data according to the determined result How to remotely manage pets.

The method according to claim 1,
Wherein the step of determining the risk condition of the pet comprises:
Comparing the biometric information of the pet with a preset reference value;
Measuring a time of staying at a predetermined position of the pet; And
Assigning a risk value to the risk condition determination condition of the pet; &Lt; RTI ID = 0.0 > 1, < / RTI >

8. The method of claim 7,
The step of assigning the risk value comprises:
Calculating warning values according to a criterion set for each of the pet dangerous conditions;
Calculating a long-term risk value according to a criterion set for each of the potential threats when the dangerous situation is released after the dangerous situation of the pet is determined; And
And summing the warning value and the long-term risk value to give a risk value.

The method according to claim 1,
The dangerous situation of the pet,
Wherein said at least one of at least one of eating, water intake, defecation, sleep, heartbeat abnormality, body temperature abnormality, feeding disorder, water intake abnormality, entry into dangerous area, runaway, exercise record.

The method according to claim 1,
The wearable device,
Wherein each of the plurality of pets is attached to each of the plurality of pets to determine a risk situation of each of the plurality of pets.

The method according to claim 1,
The wearable device,
A method for remotely managing pets, comprising charging a battery using a wireless charging system using a magnetic induction system.

A method for remotely managing pets using a guardian terminal,
Receiving the biometric information, the location information, and the dangerous situation of the pet from the wearable device attached to the pet through the server;
Displaying the at least one or more countermeasures according to the biometric information of the pet, the location information, the dangerous situation, and the dangerous situation; And
And transmitting the control signal for the corresponding response to the server by receiving the countermeasure corresponding to the dangerous situation from the guardian by the guardian terminal,
The above-
Comparing the biometric information with a predetermined reference value, measuring a time at which the position information of the pet is kept at a predetermined position, or providing a risk value to the risk condition determination condition of the pet and,
The risk value,
Calculating a warning value set according to each criterion of the pet's risk situation and calculating a long-term risk value set according to each criterion of the potential threat when the pet is out of the dangerous situation, And adding the long-term risk values to give a risk value.

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13. The method of claim 12,
The guardian terminal,
And displaying at least one or more responses corresponding to the biometric information of the pet, the location information, the dangerous situation, and the dangerous situation to the plurality of guardian terminals whose user authentication is completed from the server.

A computer-readable recording medium on which a program for executing a method according to any one of claims 1 to 4, 6 to 12, and 14 is stored.