KR20200141619A - System that shows pet's status interacted with smartphone application - Google Patents

Abstract

The present invention functions by being connected with a smartphone application when identifying current location, health status, activity amount and emotional status of a pet dog. The present invention relates to a system for identifying a status of a pet dog by being connected with a smartphone application, which is capable of identifying location of a pet dog by using a GPS signal, identifying a health status by measuring heart rate and activity amount, and identifying an emotional status by analyzing frequency of a pet dog. To this end, the system for identifying a status of a pet dog according to an embodiment of the present invention comprises: a heart rate detector for measuring heart rate of a pet dog; a vibration detector for detecting large-scale vibration; a data accumulation unit for accumulating data obtained in the heart rate detector and the vibration detector; a GPS signal transmitter for transmitting a GPS signal; a microphone for receiving voice of a pet dog; a frequency conversion unit for converting the voice into frequency; and a Bluetooth transmission module for transmitting the data, the GPS signal and the frequency to a smartphone. According to the present invention, it is possible to identify location of a pet dog at a look, to always maintain a healthy status by identifying activity amount and health status of a pet dog, and to form a closer bond with a pet dog and enable immediate action and interactive communication by translating voice of a pet dog into human language.

Description

System that shows pet's status interacted with smartphone application}

The present invention relates to a system that can determine the status of a dog by linking with a smartphone application, and more particularly, a current location of the dog that can be known using GPS, a health status that can be determined by measuring heart rate, and a vibration detector. It relates to a system that can check the status of a dog by linking with a smartphone application through the amount of activity that can be used to know how much he has run through in a day and the emotional state that can be known through the dog's voice frequency.

In the modern society, the number of households with pet dogs as companion animals continues to increase. However, since there is no way to communicate with dogs whose languages are different, there are many cases where I do not know how to deal with them, and the reality is that I cannot know what kind of situation my dog is in or what emotions he has.

In addition, if the current location is unknown when the dog is lost, it is inconvenient to search for it through leaflets.

The technical problem to be solved by the present invention is to analyze the frequency of a pet dog to determine the emotional state, measure the heart rate and activity amount to determine the health state, and to determine the location of the pet dog using GPS signals. It is to provide a system that can check the status of a pet dog by linking with the application.

A system for determining the state of a pet dog according to an embodiment of the present invention to solve the above technical problem includes: a heart rate detector for measuring a heart rate of a pet dog; A vibration detector that detects large-scale vibrations; A data storage unit that accumulates data obtained from the heart rate detector and the vibration detector; A GPS signal transmitter that transmits a GPS signal; A microphone for receiving a dog's voice; A frequency converter that converts the voice into a frequency; It consists of a Bluetooth transmission module that sends the data, GPS signal, and frequency to a smartphone.

As described above, according to the system for determining the status of the dog according to the embodiment of the present invention, when the dog is lost, there is an advantage in that the location of the dog can be determined at a glance without going through a separate cumbersome procedure.

In addition, it has the advantage of being able to maintain a healthy state at all times by taking care of the amount of activity and health of the dog.

In addition, by translating the dog's voice into a human language, it has the advantage of forming a closer bond with the dog and enabling immediate action and interactive communication.

On the other hand, the effects of the present invention are not limited to those described above, and other effects that can be derived from the configuration of the present invention described later are included in the effects of the present invention.

1 is a step diagram of a system capable of identifying a state of a pet dog by interlocking with a smartphone application according to a preferred embodiment of the present invention

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art may easily implement the present invention.

1 is a sound translation and emotion analysis system of a pet dog according to an embodiment of the present invention, FIG. 2 is a system for determining the location of a pet dog according to an embodiment of the present invention, and FIG. 3 is a system for analyzing activity and health conditions according to an embodiment of the present invention. It shows the configuration diagram of.

Hereinafter, for the same components as those of FIGS. 1 to 2 and 3, detailed descriptions of the same contents as those described in FIG. 1 will be omitted.

Referring to FIG. 1, a sound of a micro pet dog is input through a microphone module S11 of the dog, and the input sound is converted into a frequency using a Fast Furier Transform (FFT) equation (S12). The frequency converted by the Bluetooth signal transmitter (S13) is sent to the smartphone Bluetooth receiving module (S20) using the Bluetooth method, and the frequency analysis unit (S21) and the data matching unit (S22) built into the smartphone application are used. What the frequency means is found and shown by the display module S23. Here, the Bluetooth signal transmitter (S13) is not only Bluetooth, but also short-range wireless communication such as Wi-Fi, Zigbee, Infrared Data Association (IrDA), Ultra Wideband (UWB), or Radio Frequency Identification (RFID). Or a mobile communication method such as 3rd Generation (3G), 4th Generation (4G), and Long Term Evolution (LTE). In addition, the smartphone Bluetooth receiving module (S20) includes not only a smartphone, but also a terminal equipped with a mobile communication function equipped with a memory means such as a computer, a tablet, a personal digital assistant or a web pad, and equipped with a microprocessor to have a computing capability. can do.

Referring to FIG. 2, location information by GPS information (S30) is transmitted to a smartphone Bluetooth receiving module (S20) by a Bluetooth signal transmitter (S13), and the location information received from the smartphone is linked with a map application (S31). It is shown in the display module S23.

3, the data obtained from the heart rate detector (S50) for measuring the pulse of the dog and the vibration detector (S40) for measuring how far it has run are stored in the data storage unit S51, and this is transferred to the Bluetooth signal transmitter (S13). The meaning of the heart rate data and vibration data is found through the data matching unit S22 which is transmitted to the smartphone Bluetooth receiving module S20 and embedded in the application of the smartphone, and is shown as a display module S23.

S10: input dog sound
S11: Dog microphone module
S12: Convert the input voice into frequency
S13: Bluetooth signal transmitter
S20: Smartphone Bluetooth receiving module
S21: frequency analysis unit
S22: Data verification unit
S23: Display module
S30: GPS information
S31: Interlock with map application
S40: vibration detector
S50: heart rate detector
S51: Data storage unit

Claims (1)

A heart rate detector that measures your dog's heart rate.
Vibration detectors that measure large-scale vibrations.
A data storage unit that accumulates data measured by the heart rate detector and the vibration detector.
A GPS transmitter that sends a GPS signal.
A microphone that receives the dog's voice.
A frequency converter that converts the voice into a frequency.
And a Bluetooth transmission module that transmits the data stored in the data storage unit, the frequency converted by the frequency conversion unit, and a GPS signal to a smartphone.

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