WO2024187293A1

WO2024187293A1 - Pet health management system

Info

Publication number: WO2024187293A1
Application number: PCT/CN2023/080659
Authority: WO
Inventors: 林靖婷
Original assignee: 和讯股份有限公司
Priority date: 2023-03-10
Filing date: 2023-03-10
Publication date: 2024-09-19

Abstract

A pet health management system, comprising: a wearable sensing device (30), a mobile carrier (20), and a remote server (10). The wearable sensing device (30) is used for acquiring environmental information (301) and physiological information of a pet (302), and transmitting the physiological information (302) and the environmental information (301) to the mobile carrier (20). The wearable sensing device (30) comprises a low-frequency receiver to obtain the physiological information (302). The remote server (10) stores owner information (111) and pet physiological information (112), and receives the physiological information (302) and the environmental information (301) transmitted from the mobile carrier (20). The remote server (10) updates the pet physiological information (112) according to the environmental information (301) and the physiological information (302), forms a pet state (121), and returns the pet state (121) to the mobile carrier (20).

Description

Pet health management system

Technical Field

The present application relates to a health management system that integrates owner information and hospital information through pet physiological information to reduce information asymmetry between the two.

Background Art

Furry pets have gradually become a part of many families, so pet care has also become a huge market. The use of modern technology monitoring and cloud computing can obtain more physiological information of pets as a basis for caring for furry pets and maintaining their physical and mental health.

Summary of the invention

The technical problem to be solved by the present application is to provide a pet health management system, including: a wearable sensing device, a mobile vehicle and a remote server. The wearable sensing device is used to obtain environmental information and physiological information of the pet, and transmit the physiological information and the environmental information to a mobile vehicle. The wearable sensing device includes a low-frequency receiver to obtain the physiological information. The remote server stores owner information and pet physiological information, receives the physiological information and the environmental information transmitted from the mobile vehicle, and updates the pet physiological information according to the environmental information and the physiological information, and forms and returns a pet status to the mobile vehicle.

In addition, the wearable sensing device is wirelessly connected to a transmission device, and the transmission device transmits the physiological information and the environmental information obtained from the wearable sensing device to the mobile vehicle or another server.

In addition, the physiological information corresponds to at least one of heartbeat, respiration, number of steps and blood oxygen, and the environmental information includes temperature and/or humidity.

In addition, the mobile vehicle is used to input a care information, and the remote server or the mobile vehicle generates a care reminder message according to the care information.

In addition, the pet physiological information includes pathological information.

In addition, the remote server forms pet social information according to the owner information and/or the pet physiological information.

In addition, the remote server forms the pet status according to the physiological information and the position coordinates of the wearable sensing device.

In addition, the number of the transmission devices is multiple and the coordinates are different.

The details of other effects and embodiments of the present application are described below with reference to the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required for use in the embodiments or the description of the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments recorded in the present application. For ordinary technicians in this field, other drawings can be obtained based on these drawings without paying creative work.

FIG1 is a schematic diagram of a pet health management system;

FIG. 2 is another schematic diagram of the pet health management system.

Explanation of symbols
10, 50: Remote server 11: Storage module
111: Owner information 112: Pet physiological information
113: Medical information 12: Processing module
121: Pet status 122: Care reminder information
123: Pet social information 13: Wireless transmission module
20: Mobile Vehicle 21: Input Module
201: Care information 22: Wireless transmission module
30: Wearable sensor device 31: Sensor module
301: Environmental information 302: Physiological information
32: Wireless transmission module 40: Transmission device
401: Location Information

DETAILED DESCRIPTION

The positional relationships described in the following embodiments include: up, down, left and right. Unless otherwise specified, they are all based on the directions in which the components are drawn in the drawings.

Please refer to FIG. 1 , which shows a schematic diagram of a pet health management system, including a wearable sensing device 30, a mobile vehicle 20, and a remote server 10. The wearable sensing device 30 is worn on the pet, and the wearable sensing device 30 is wirelessly connected to the mobile vehicle 20. The wireless transmission module 22 of the mobile vehicle 20 receives the environmental information 301 and physiological information 302 of the pet obtained by the wearable sensing device 30, and transmits the aforementioned information to the remote server 10 wirelessly.

The wearable sensing device 30 at least has a sensing module 31 and a wireless transmission module 32. The wireless transmission module 32 may be a Bluetooth or/and wireless network module. The sensing module 31 may include a low-frequency receiver. By utilizing the characteristic that low-frequency signals propagate over long distances without attenuation, the wearable sensing device 30 does not need to contact the pet's skin, and the pet does not need to be shaved, and the pet's physiological information 302 can be obtained. The aforementioned physiological information 302 may be, for example, one or more of heartbeat, respiration, number of steps, and blood oxygen. The sensing module 31 may directly collect the aforementioned physiological information, or may first collect the raw data and then convert it into physiological information 302 corresponding to heartbeat, blood oxygen, respiration, number of steps, and number of head swings through an algorithm. It is worth mentioning that the reference data obtained by combining various physiological information 302 also belongs to the category of physiological information 302. For example, the breathing rate or heartbeat of a pet can be converted into emotional information, and the number of steps can also correspond to the activity information of the pet.

The wearable sensing device 30 will be worn on the pet for a long time, so the sensing module 31 of the wearable sensing device 30 can also have an environmental sensing function to obtain the temperature and/or humidity data around the pet. When the pet requires long-term care, the above data will help medical staff or owners monitor and judge the recovery status of the pet.

The remote server 10 has a storage module 11 , a processing module 12 , and a wireless transmission module 13 wirelessly connected to the mobile vehicle 20 . The storage module 11 is used to store owner information 111 , pet physiological information 112 , and medical treatment information 113 .

The owner information 111 may include personal information such as the owner's identity, the owner's location, the pet breed, and the pet's age, which can be obtained from the mobile vehicle 20 (e.g., a smart phone). The mobile vehicle 20 has a built-in input module 21 to provide the owner with input of care information 201. The care information 201 may be, for example, pet weight, (deworming) medication period, health check time, vaccination, bathing, beauty, massage, urination, or the default time frequency for performing the aforementioned care behaviors, etc., but is not limited thereto. The remote server 10 or the mobile vehicle 20 may generate a care reminder message based on the care information to remind the owner to perform the aforementioned care behaviors at a specific time.

The pet physiological information 112 corresponds to the environmental information 301 and the physiological information 302 obtained by the wearable sensing device 30. After receiving the environmental information 301 and the physiological information 302, the remote server 10 updates the pet physiological information 112, and generates and returns the pet status 121 to the mobile vehicle 20. Therefore, the pet status 121 is the information formed by integrating the environmental information 301 and the physiological information 302, and can be divided into multiple levels according to the situation. For example, the normal value is set as healthy, and the value 20% higher than the average value is set as Those above 40% of the average are set as requiring special attention, so that owners can be aware of the pet's condition.

When the pet status 121 requires special attention, the remote server 10 can transmit the pet status 121 to multiple mobile vehicles 20 according to the settings of the owner information 111 to remind more people to pay attention. In addition, the mobile vehicle 20 can also sort the pet physiological information 112 or the pet status 121 according to the time sequence (daily, weekly or monthly) to let the owner understand the long-term changes in the pet's physiology.

Medical information 113 refers to information such as the location, contact channels, treatment departments, business hours, and other owner evaluations of the animal hospital. When the care reminder information sets a schedule for regular check-ups for the pet, the owner can make an appointment at a specific animal hospital through the mobile vehicle 20. The mobile vehicle or computer held by the veterinarian can be set to connect to the remote server 10 through an application, and the pet's physiological information 112 is imported from the remote server 10 to the mobile vehicle or computer held by the veterinarian for the veterinarian's reference and online medical consultation. After the online medical consultation, the owner can update the pet's physiological information 112 on the remote server 10 by himself. In other words, the pet's physiological information 112 may also include the pet's consultation records or pathological information. However, the aforementioned consultation records or pathological information can also be input through the mobile vehicle or computer held by the veterinarian.

When the pet status 121 requires special attention, the remote server 10 can also select suitable pet hospitals nearby based on the physiological information 302 and medical information 113 in the pet physiological information 112, and provide the medical information 113 to the owner for reference. The owner can refer to the contact channel of the medical information 113 to conduct online consultation or medical treatment to reduce the information asymmetry between the two.

In addition, the consultation record or pathological information of the pet's physiological information 112 may correspond to a period when the pet is in a bad condition. In this case, the classification basis of the pet's status 121 may be changed according to the pet's physical condition, for example, the original judgment basis of the "attention" state may be changed to "need care". Attention should be paid. During the follow-up visit, the aforementioned pet physiological information 112 can be provided to the veterinarian for reference again, and the veterinarian can determine the classification basis of the pet status 121 thereafter.

In this embodiment, the remote server 10 can also generate pet social information 123 based on the owner information 111 and/or the pet physiological information 112, so that owners in nearby areas can have the opportunity to communicate. In addition, the remote server 10 can generate pet social information 123 based on the activity information and emotional information in the physiological information 302, for example, specifically selecting pets of the same breed, size, and activity, so that owners and pets can have friendly interactions.

The remote server 10 can also form a pet status 121 based on specific physiological information 302 such as activity information and emotional information and the current location information of the wearable sensing device 30 to record the pet's social preferences and regional preferences, for example, liking specific people or other pets, liking specific pet hospitals or hotels.

Please refer to FIG. 2 , which shows another schematic diagram of the pet health management system. The difference from the previous embodiment is that the wearable sensing device 30 is first wirelessly connected to the transmission device 40, and the transmission device 40 then wirelessly transmits the data obtained from the wearable sensing device 30 to the mobile vehicle 20. The transmission device 40 can also directly transmit the data obtained by the wearable sensing device 30 to another remote server 50. Therefore, when the connection between the mobile vehicle 20 and the wearable sensing device 30 is disconnected, the environmental information 301 and physiological information 302 of the pet can still be obtained in a timely manner.

There can be multiple transmission devices 40. In addition to being placed at home, the transmission device 40 can also be set with corresponding location information 401 and placed in a pet hospital or pet hotel, so that the owner, veterinarian, and caregiver can get real-time information. The location information 401 of the transmission device 40 can also be used as the positioning information of the wearable sensing device 30. There is no need to establish a positioning module inside the wearable sensing device 30, and the battery life can also be improved.

The embodiments and/or implementation methods described above are only used to illustrate the preferred embodiments and/or implementation methods for realizing the technology of the present application, and are not intended to limit the implementation methods of the technology of the present application in any form. Any technical personnel in this field may make slight changes or modifications to other equivalent embodiments without departing from the scope of the technical means disclosed in the content of the present application, but they should still be regarded as technologies or embodiments that are essentially the same as the present application.

Claims

A pet health management system, characterized in that the pet health management system comprises:

A wearable sensing device is used to obtain environmental information and physiological information of the pet, and transmit the physiological information and the environmental information to a mobile vehicle. The wearable sensing device includes a low-frequency receiver to obtain the physiological information;

A remote server stores owner information and pet physiological information, receives the physiological information and the environmental information transmitted from the mobile vehicle, and updates the pet physiological information according to the environmental information and the physiological information, and forms and returns a pet status to the mobile vehicle.
The pet health management system according to claim 1 is characterized in that the wearable sensing device is wirelessly connected to a transmission device, and the transmission device transmits the physiological information and the environmental information obtained from the wearable sensing device to the mobile vehicle or another server.
The pet health management system according to claim 2 is characterized in that the physiological information corresponds to at least one of heartbeat, respiration, number of steps and blood oxygen, and the environmental information includes temperature and/or humidity.
The pet health management system according to claim 2 is characterized in that the mobile vehicle is used to input care information, and the remote server or the mobile vehicle generates a care reminder message based on the care information.
The pet health management system according to claim 2, characterized in that the pet physiological information includes pathological information.
The pet health management system according to claim 5 is characterized in that the remote server forms pet social information based on the owner information and/or the pet physiological information.
The pet health management system according to claim 2 is characterized in that the remote service The server forms the pet status according to the physiological information and the position coordinates of the wearable sensing device.
The pet health management system according to claim 2 is characterized in that there are multiple transmission devices with different coordinates.