KR20160139229A - Pet lifecycle management system based on internet of things - Google Patents

Abstract

According to an embodiment of the present invention, a system to manage a life cycle of a pet based on Internet of things, capable of improving the health management of a pet and a cost burden therefor. To achieve the purpose, the present invention includes: an information providing device installed on a pet to provide identification information, position information, exercise information, and activity information including feed or water intake information of the pet; a supply server providing supply information including feed, snack, and diet information for the pet; an owner terminal providing history information about the pet; a hospital terminal providing health condition information of the pet; and a sharing server connected with the information providing device, the supply server, the owner terminal, and the hospital terminal through a wire/wireless network to receive the activity information, the supply information, the management information, and the health condition information, and calculating health history information, including intake or consumption calorie information, momentum history information, and weight history information, based on the received information and then sharing the information with the information providing device, the supply server, the owner terminal, and the hospital terminal through a social network service (SNS).

Description

FIELD OF THE INVENTION [0001] The present invention relates to an Internet based companion life cycle management system,

One embodiment of the present invention relates to a object Internet based companion life cycle management system.

As society becomes highly developed, material becomes enriched, while man becomes increasingly self - centered, and the mind becomes depleted. In contrast, the animal world is always intact and pure. Therefore, humans tend to recover the nature of human nature that is lost by contact with these animals. As a part of this phenomenon, a person pets an animal and lives together. In order to respect the various benefits that an animal gives to a person, the animal is referred to as an animal that lives together in the sense that a pet is not a toy of a person. Animal, companion animal). The companion animal includes a pet puppy and a cat.

The size of the industrial market related to these companions is up to 100 trillion won in major countries (US, China, Japan, Korea, etc.), and about 10 million households of agriculture, forestry and fisheries quarantine inspection headquarters The size of the companion animal industry is expected to reach about 6 trillion won by 2020. A few years ago, the companion animal industry in our country was mostly primary and secondary industries such as animal hospitals and animal feeds and animal products, but in the recent 2-3 years, Cosmetics, etc.) are growing.

Currently, the health of companion animals depends on the information provided unilaterally by specialists such as veterinarians, and due to the fact that high cost structure is fixed due to the center of post-response rather than prevention through normal health management, it becomes a great economic burden for the pet owner.

These economic burdens are becoming a major cause of organic organogenesis, and as a result of the unhygienic living environment and the wildfire of organic animals, they have become a social problem in recent years.

In recent years, wearable devices for companion animal health care have been used, but these wearable devices are intended to measure vital sign or momentum such as body temperature or pulse. However, due to the nature of companion animals, in the case of vital signs, there is a rapid change beyond the normal range with only a short time of exercise or excitement. Therefore, the reliability as a health care index is low and the simple exercise measurement is insufficient as information for comprehensive health management It is true.

In addition, although SNS related to companion animals is also appearing, it is still at the level of sharing of information and simple information of companion animals.

Patent Registration No. 10-0677821 'Pet management system using microchip and DNA sequence' Japanese Patent Application Laid-Open No. 10-2008-0094117 " Companion animal management system and method thereof "

One embodiment of the present invention provides an object-based companion life cycle management system for object health that can improve the health care of a companion animal and the resulting cost burden.

The object Internet-based companion life cycle management system according to an embodiment of the present invention includes a sensing device that is worn on a companion animal and detects momentum information; An automatic distribution device for distributing feed and water according to preset feed ration information to the companion animal and measuring information on the amount of feed and water consumed by the companion animal; And a controller configured to receive the exercise amount information, the ration amount and the intake amount information from the sensing device and the automatic distribution device, calculate the exercise amount history information of the companion animal using the received exercise amount information, The calorie history information of the companion animal is calculated using the received ration information and the intake amount information and the calorie information of the rationed feed and water by comparing the reference momentum information of the companion animal with the reference momentum information of the companion animal, Calculating calorie history information of the companion animal by applying the history information to the calorie conversion program, and sharing the caloric content evaluation result, the calculated calorie consumption history information and the consumed calorie history information through the SNS (Social Network Service) A shared server.

The sensing device includes: a body part to be worn on a body part of the companion animal; And a sensing module, which is embedded in the body and senses information on the amount of exercise of the companion animal by executing a pre-installed information providing program and provides the information to the sharing server.

Wherein the detection module comprises: a first transceiver for transmitting / receiving data to / from the shared server; An identification information storage unit for storing unique identification information of the companion animal; A motion detection unit for detecting motion information of the companion animal; A GPS unit for detecting position information of the companion animal; A biometric information sensing unit for sensing vital sign information of the companion animal; An information generating unit for generating momentum information including the unique identification information, the motion information, the position information, and the vital sign information; An alarm unit for outputting an alarm signal received from an external device; And a first controller for controlling the operation of each component constituting the detection module.

The biometric information sensing unit may include a sensor for sensing at least one of body temperature, pulse, and blood pressure of the companion animal.

The automatic distribution apparatus includes a second transmission / reception unit for transmitting / receiving data to / from the shared server; A ration information calculation unit for measuring a first weight of feed or water distributed to the companion animal and calculating ration information using the measured first weight; An intake amount information calculation unit for measuring a second weight of the feed or water after being consumed by the companion animal and calculating the intake amount information using the difference between the measured second weight and the first weight; A ration information storage unit for storing the ration distribution information set in advance including the weight information of the daily distribution ration or water of the companion animal, the daily ration number information, the daily or weekly diet information, and the calculated ration amount information and the intake amount information; And a second control unit for controlling the operation of each component constituting the automatic distribution apparatus.

Wherein the shared server comprises: a communication module for transmitting and receiving data to and from the sensing device and the automatic distribution device; An information receiving module for receiving the exercise amount information, the rationing amount and the intake amount information from the sensing device and the automatic distribution device, respectively; A momentum history information calculating module for calculating momentum history information of the companion animal using the received momentum information; A momentum evaluation module for comparing the momentum history information with a preset reference momentum information of the companion animal to evaluate the momentum of the companion animal; An intake calorie history information calculating module for calculating intake calorie history information of the companion animal using the received intake amount information and calorie information of the delivered feed and water; A consumed calorie history information calculating module for calculating consumed calorie history information of the companion animal by applying the exercise amount history information to a preset calorie conversion program; An information sharing module for sharing the exercise amount evaluation result, the calculated calorie intake history information and the consumed calorie history information through the SNS; A storage module for storing the exercise amount information, the ration amount and the intake amount information, the exercise amount history information, the reference exercise amount information, the exercise amount evaluation information, the intake calorie history information, the calorie conversion program, the consumed calorie history information, And a control module for controlling operations of each component constituting the shared server.

The subject Internet-based companion life-cycle management system includes a host terminal providing first health information including profile information, feed information, and weight information of the companion animal; And a hospital terminal for providing second health information including information on feces test results for the companion animal, date and time of visit of the companion animal, inspection and treatment information for each visit date, and vaccination history information.

The host terminal may receive the exercise amount information from the sensing device and transmit the received exercise amount information together with the first health information to the sharing server.

The host terminal includes a first communication unit for transmitting / receiving data to / from the sensing device or the shared server; A first information requesting unit for requesting the user for desired health history information of the companion animal to the shared server; A weight information receiving unit for receiving the weight information of the companion animal measured through the weight measuring means; A first information generating unit for generating first health information including initial profile information of the companion animal and daily or periodic input information related to feed information or weight information of the companion animal; A first information input unit connected to the shared server for inputting member information and first health information of the companion animal; A first display unit for displaying at least one of the member information, the health history information of the companion animal, and the first health information; And a first control unit connected to the sensing device or the shared server by the execution of the companion animal application and controlling the operation of each component constituting the host terminal.

The sharing server compares the body weight information of the companion animal with the body weight information, and evaluates whether the body weight of the companion animal is excessive or insignificant. A necessary calorie calculation module for calculating a required calorie corresponding to the evaluated excess or inferiority degree by a predetermined required calorie calculation program; And a feed information extracting module for extracting feed information for supplementing the calculated required calories, and sharing the extracted feed information through the SNS.

Wherein the hospital terminal comprises: a second communication unit for transmitting / receiving data to / from the shared server; A second information requesting unit for requesting a healthcare history information of a companion animal desired by the hospital manager to the shared server; A feces information receiving unit for receiving feces information of the companion animal performed through the feces inspecting means; A second information generator for generating second health information including the feces test result information, the visit date, the visit date and treatment information of the companion animal, and the vaccination history information; A second information input unit connected to the shared server for inputting member information and second health information of the companion animal; A second display unit for displaying at least one of the member information, the health history information of the companion animal, and the second health information; And a second control unit connected to the shared server through the execution of the companion animal application and controlling the operation of each component constituting the hospital terminal.

The shared server may share the first health information, the second health information, and the meal information of the companion animal to the host terminal or the hospital terminal through the SNS.

Since the object Internet-based companion life-cycle management system according to an embodiment of the present invention shares the health information of the companion animal with stakeholders such as the owner, the veterinary hospital, the pet shop, the goods store, Contributes to the management system and can improve the current high cost structure.

In addition, one embodiment of the present invention monitors the most effective meal, water intake, and exercise amount as a daily management index for companion health management, and performs preventive health management through periodic excretory inspection and regular health checkup Therefore, it is possible to lower the probability of occurrence of a high-cost occurrence situation due to post-disease response.

In an embodiment of the present invention, a device for collecting object data and a platform for storing a large amount of data are constructed, and the accumulated data is analyzed through analytics and converted into a database. Therefore, a signal for prevention is detected Action can be taken.

In addition, one embodiment of the present invention utilizes social network service (SNS) to share information accumulated within individuals or individual families who raise companion animals and to enlarge them, thereby improving the quality of companion animal management using various information, Can be rationalized.

In addition, one embodiment of the present invention utilizes SNS as a supplementary expectation effect, and it is utilized as a Pumasi hub to take charge of each other in place of a high-cost hotel ring service, so that it can take care of the owner free of charge for a long time Since it provides an alternative, it is possible to reduce the cause of companion organism.

FIG. 1 is a diagram for explaining a concept of a object Internet-based companion life cycle management system according to an embodiment of the present invention.
FIG. 2 is a diagram schematically illustrating an object-based Internet life cycle management system according to an embodiment of the present invention.
3 is a block diagram schematically showing the sensing device of Fig.
4 is a block diagram schematically showing the automatic distribution apparatus of FIG.
5 is a block diagram schematically showing the shared server of FIG.
6 is a block diagram schematically showing the master terminal of FIG.
FIG. 7 is a block diagram schematically showing the hospital terminal of FIG. 1; FIG.

The terms used in this specification will be briefly described and the present invention will be described in detail.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. Also, in certain cases, there may be a term selected arbitrarily by the applicant, in which case the meaning thereof will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term, not on the name of a simple term, but on the entire contents of the present invention.

When an element is referred to as "including" an element throughout the specification, it is to be understood that the element may include other elements as well, without departing from the spirit or scope of the present invention. Also, the terms "part," " module, "and the like described in the specification mean units for processing at least one function or operation, which may be implemented in hardware or software or a combination of hardware and software .

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

FIG. 1 is a diagram for explaining a concept of a object Internet-based companion life cycle management system according to an embodiment of the present invention.

Referring to FIG. 1, the object Internet based companion life-cycle management system according to an embodiment of the present invention is configured to manage an ecosystem of a kind of related stakeholders based on health information management of companion animals, A wearable device (that is, a sensing device 10 (hereinafter, referred to as " sensor device ") for disposing a platform for production ), An automatic feeder (i.e., automatic dispensing device 20), a pet owner (i.e., host terminal 40), a veterinary hospital (i.e., hospital terminal 50) And a user portal that can be used for network services and e-commerce.

FIG. 2 is a diagram schematically showing a life-cycle management system for object-based companion animals according to an embodiment of the present invention, FIG. 3 is a block diagram schematically showing the sensing apparatus of FIG. 1, Fig. 5 is a block diagram schematically showing a distribution device, Fig. 5 is a block diagram schematically showing a shared server 30 of Fig. 1, Fig. 6 is a block diagram schematically showing a master terminal of Fig. 1, FIG. 2 is a block diagram schematically showing a hospital terminal of FIG.

2, the object Internet-based companion life-cycle management system includes a sensing device 10, an automatic distribution device 20, a shared server 30, a host terminal 40, And includes a terminal 50.

As shown in FIG. 3, the sensing device 10 is a device for collecting evidence data for estimating calories consumed for a certain period of time by sensing exercise information on a companion animal, And a detection module (110) installed in the body part (110) for detecting the information of the exercise amount of the companion animal by executing an information providing program installed in advance and providing the information to the sharing server (30) (120).

The body 110 has a wearable shape, and is worn as a necklace, an earring, a footrest, etc. on the neck, ears and legs of a companion animal.

In this specification, the sensing device 10 is wearable in a part of the body of a companion animal. However, the present invention is not limited to this, and a stand-alone device composed of a camera or the like may be used to collect vital sign information .

The sensing module 120 includes a first transceiver 121, an identification information storage 122, a motion sensing unit 123, a GPS unit 124, a biometric information sensing unit 125, an information generating unit 126, An alarm unit 127, and a first control unit 128.

The first transceiver 121 is a device for transmitting and receiving data to and from the host terminal 40 or the shared server 30 and is connected to the host terminal 40 or the shared server 30 through a wired or wireless communication network. The wired / wireless communication network may be a wired or wireless network, a local area network (LAN), a wireless LAN (WLAN), a mobile communication network, And an equivalent method may be applied.

The identification information storage unit 122 stores unique identification information of the companion animal. The identification information storage unit 122 may store identification information of the companion animal such as RFID (registered trademark) or the like, so as to be easily recognized by the host terminal 40 or the hospital terminal 50 an RFID chip (not shown) in which radio frequency identification (RFID) identification information is recorded. The RFID chip is inserted into the body and receives a transmission frequency (radio frequency) from a reader unit (not shown) provided in the host terminal 40 or the hospital terminal 50, It can be used as long as it is capable of returning by using the force of frequency. On the other hand, the RFID chip is issued by a pet owner requesting issuance of an RFID tag to the shared server 30. Specifically, the pet owner accesses the shared server 30 through the Internet or the like, inputs the unique identification information of the companion animal and the owner's own information, and issues an RFID tag including the information to obtain a part of the body of the companion animal . In addition to the unique identification information, the RFID tag may further include image information of a companion animal.

The motion sensing unit 123 senses motion information of the companion animal and includes a motion detection sensor for detecting movement of the companion animal. The motion detecting unit 123 calculates the direction, speed, and distance information of the companion animal using the motion sensor, and transmits the information to the information generating unit.

The GPS unit 124 includes a position sensor that senses position information to prepare for the loss of a companion animal, and uses a GPS method for generating position information through communication with a GPS satellite . In addition, the GPS unit 124 may use any one of or a combination of two or more of CDMA and WiFi schemes in addition to the GPS system. In the case of the WiFi scheme, location information is generated through communication with a wireless AP. In the case of the CDMA scheme, location information is generated through communication with a cell tower. The GPS unit can generate location information of the companion animal more accurately by generating position information in such a manner or in a manner in which two or more of them are mixed.

The biometric information sensing unit 125 is a device for sensing vital sign information of a companion animal and includes a sensor for sensing at least one of body temperature, pulse, and blood pressure of the companion animal. More specifically, the biometric information sensing unit 125 includes a temperature sensor (not shown) for sensing the body temperature of the companion animal, a pulse sensor (not shown) for sensing the pulse of the companion animal, (Not shown) that detects vital signs of the companion animals, and transmits vital sign information of the companion animals detected from the respective sensors to the information generating unit.

The information generating unit 126 generates momentum information including unique identification information, motion information, position information, and vital sign information. That is, the information generating unit 126 generates unique identification information, motion information, position information, and vital information from the identification information storage unit 122, the motion sensing unit 123, the GPS unit 124, and the biometric information sensing unit 125, Sign information is received and signal information of each information is generated to generate one momentum information. At this time, the information generating unit 126 may implement a GUI (Graphical User Interface) for data processing.

The alarm unit 127 is an apparatus for outputting an alarm signal received from an external device. When the companion animal departs a predetermined distance based on movement information of the companion animal, position information or vital sign information, And outputs the alarm signal received from the host terminal 40 or the shared server 30 to the outside.

The first control unit 128 may be worn on a companion animal and may control the operation of each component constituting the sensing module so as to detect momentum information and provide the same to the sharing server 30. [

The first controller 128 controls the first transceiver 121 to transmit movement information, position information, or vital sign information of the companion animal to the host terminal 40 or the shared server 30, When it is determined that the companion animal is in a lost state, such as when the sensing device 10 is located at a predetermined distance or more from the host terminal 40, it is automatically transmitted to the host terminal 40 or the shared terminal 40, (30).

The automatic distribution device 20 is a device for distributing feed and water according to preset feed ration information to a companion animal, and measuring information on the amount of feed and water consumed by the companion animal. That is, the automatic distribution apparatus 20 measures the intake animal feed weight and the water weight of the companion animal, and converts the data into data, and transmits the data to the shared server 30, thereby calculating the intake calorie count and analyzing the pattern of feed and water intake And feeds the feed to the companion animal on the basis of the feeding program transmitted from the sharing server 30 in conjunction with the weight information separately.

4, the automatic distribution apparatus 20 includes a second transmission / reception unit 210, a distribution amount information calculation unit 220, an intake amount information calculation unit 230, a distribution information storage unit 240, And a control unit 250.

The second transceiver 210 is a device for transmitting / receiving data to / from the shared server 30 and is connected to the host terminal 40 or the shared server 30 through a wired / wireless communication network. The wired / wireless communication network may be applied to various wired / wireless communication systems such as the Internet, LAN, wireless LAN, mobile communication network, or Wi-Fi system, ZigBee system, Bluetooth system and its equivalent system.

The ration information calculation unit 220 measures a first weight of feed or water distributed to the companion animal and calculates ration information using the measured first weight. That is, the ration amount information calculation unit 220 measures the weight of the feed or water based on the time when it is distributed to the companion animal by using a weight measuring means such as a scale for measuring the weight of the feed or water distributed to the companion animal, The weight information can be signal-processed by the ration information and transmitted to the master terminal 40 or the shared server 30. [ The distribution amount information calculation unit 220 may calculate the distribution number information, the food information, the feed information, or the snack information as one distribution amount information as well as the weight information of the distributed feed, As shown in FIG.

The intake amount information calculation unit 230 measures the second weight of the feed or water after being consumed by the companion animal and calculates the intake amount information using the difference between the measured second weight and the first weight . That is, the intake amount information calculating unit 230 measures the weight of the feed or water after being consumed by the companion animal by using the weight measuring means, calculates the difference value between the weight and the weight of the feed or water distributed to the companion animal And then transmitted to the host terminal 40 or the shared server 30 by signal processing using the difference value of the weight of the feed or water.

The distribution information storage unit 240 stores the distribution ration information previously set to include the daily distribution ration of the companion animal or the weight information of water, the daily distribution frequency information, the daily or weekly menu information, and the ration volume information calculation unit and the intake amount information calculation It is a device which stores the information of the ration and the information of the amount of intake calculated by the department.

The second control unit 250 distributes the feed and water in accordance with the feed ration information set in advance to the companion animal and measures the information on the amount of feed and water consumed by the companion animal, The operation of the element can be controlled.

The sharing server 30 is a server device managed by a company or an operating entity that provides the life-cycle management service for the companion animals, and receives the information of the quantity of exercise and the distribution amount and the amount of consumption information from the sensing device 10 and the automatic distribution device 20 The exercise amount information of the companion animal is then calculated using the received exercise amount information, and then the exercise amount information of the companion animal is evaluated by comparing the exercise amount history information with the preset reference exercise amount information of the companion animal, Calorie history information of the companion animal is calculated using the intake amount information and the calorie information of the rationed feed and water, the calorie history information of the companion animal is calculated by applying the exercise amount history information to the calorie conversion program, , The calculated caloric intake history information and consumed calorie history information are transmitted to the SNS (Social Network Ser vice. Also, the sharing server 30 may share the first health information, the second health information, and the meal information of the companion animal to the host terminal 40 or the hospital terminal 50 through the SNS.

In addition, the sharing server 30 sets reference information such as an appropriate weight, feed intake, calorie, and water intake for each breed animal, determines the suitability by analyzing the measurement information of the input companion animals, And generates a feed amount program to be transmitted to the automatic distribution device 20. [ The sharing server 30 comprehensively checks various test results and health status information of the companion animals measured by the host terminal 40 or the hospital terminal 50 and compares the health status information with the portal site 31 ). At this time, the portal site 31 manages health information such as the weight of the companion animal, feed consumption, consumed calories, hospital inspection and medical information, shares information through networking among the companion animal owners, Reliability can be improved through evaluation. For this purpose, the portal site 31 provides pumice functions such as home staging and care between members, recommends foods such as recommendation feeds and snacks on the basis of health information managed by companion animals, (For example, related industries such as medical care, beauty, food, etc., and non-traditional industries such as premises, travel, hotel rings, etc.).

5, the sharing server 30 includes a communication module 310, an information receiving module 315, a momentum history information calculating module 320, an exercise amount evaluating module 325, an intake calorie history information calculating module 320, A calorie history information calculation module 330, a consumed calorie history information calculation module 335, an information sharing module 340, a storage module 350, a weight evaluation module 360, a required calorie calculation module 370, a feed information extraction module 380, And a control module 390.

The communication module 310 is a device for transmitting and receiving data to and from the sensing device 10, the automatic distribution device 20, the host terminal 40 or the hospital terminal 50. The communication module 310 includes a protocol stack The host terminal 40 or the hospital terminal 50 on the basis of the control information, the TCP / IP protocol, and the CDMA protocol), and connects the sensing device 10, (For example, HTTP (Hyper-Text Transfer Protocol), WAP (Wireless Application Protocol), or the like) defined in a communication program provided in the terminal device 50, the automatic distribution device 20, the host terminal 40, ME (Mobile Explorer)) to send and receive identification information and location information of the companion animal and control command information. However, the present invention does not limit the type of the communication network, but may be applied to various communication systems such as a Wi-Fi system, a ZigBee system, a Bluetooth system, an NFC system, a 3G system, a 4G system, , A 5G method, a 6G method, and the equivalent method may be applied.

The information receiving module 315 receives the exercise amount information, the rationing amount and the intake amount information from the sensing device 10 and the automatic distribution device 20, respectively. The information receiving module 315 receives the first health information and the second health information from the host terminal 40 and the hospital terminal 50, respectively.

The exercise amount history information calculation module 320 is a device for generating exercise amount history information of the companion animal and calculates exercise amount history information of the companion animal using the exercise amount information received by the information reception module 315. [

The momentum evaluation module 325 is an apparatus for evaluating the titration momentum of companion animals, and evaluates whether the momentum of the companion animal is appropriate by comparing the momentum history information with the preset reference momentum information of the companion animal.

The intake calorie history information calculation module 330 generates daily calorie intake calorie information and calorie history information of the companion animal. The intake calorie history information calculation module 330 calculates the intake calorie history information based on the intake amount information received by the information receiving module 315, Calorie history information of the companion animal is calculated using the calorie information of the feed and water distributed.

The consumed calorie history information calculation module 335 generates daily calorie consumption and calorie history information and applies the exercise amount history information to a preset calorie conversion program to calculate consumed calorie history information of the companion animal.

The information sharing module 340 may store the caloric content evaluation results and the calorie intake history information and the calorie history information calculated by the intake calorie history information calculation module 330 and the consumed calorie history information calculation module 335 through the SNS . The information sharing module 340 may receive the first health information input from the home terminal 40 and the second health information input from the hospital terminal 50 It can be shared through SNS.

The storage module 350 stores the exercise amount information, the ration and intake amount information, the exercise amount history information, the reference exercise amount information, the exercise amount evaluation information, the intake calorie history information, the calorie conversion program, the consumed calorie history information, In addition, the storage module 350 may store health state information of the companion animal, history, momentum measurement result, target performance, diet information, and the like.

The body weight evaluation module 360 is an apparatus for evaluating the appropriate weight of the companion animal. The weight evaluation module 360 compares the weight information of the companion animal with the weight information, and evaluates whether the weight of the companion animal is excessive or insignificant. In addition, the body weight assessment module 360 may generate an optimal body weight excess / weakness status and weight change history information.

The required calorie calculation module 370 is a device for calculating the calorie consumption required for the current weight and the required degree of calorie, Calories are calculated.

The feed information extracting module 380 is a device for calculating a feed and snack suitable for the calorie consumed at the present time with respect to an underweight degree. The feed information extracting module 380 stores feed information for supplementing the calories required by the calorie- (350).

The control module 390 controls the operation of each component constituting the shared server 30, collects various data for health care of companion animals, and provides a platform for large-scale data accumulation based on various data (SNS) function, it is possible to detect the signal for prevention and take action. That is, the control module 390 receives the exercise amount information, the rationing amount and the intake amount information from the sensing device 10 and the automatic distribution device 20, and calculates the exercise amount history information of the companion animal using the received exercise amount information The exercise quantity information of the companion animal is compared with the reference exercise quantity information of the companion animal set in advance and the calorie consumption information of the companion animal and the calorie consumption calories of the companion animal are calculated using the received ration information and the intake amount information, Calculating calorie history information of the companion animal by applying the exercise amount history information to the calorie conversion program, calculating the caloric content evaluation result, the calculated calorie intake history information and the calorie history information of the calorie using SNS (Social Network Service ), Sharing the first health information, the second health information, and the meal information of the companion animal with the owner 40 or may be received from the hospital terminal 50 to be controlled so as to share via the SNS.

In addition, the control module 390 may include behavior pattern information based on motion information of the companion animal and position information, current health state information compared with the past health deterioration based on the first health information and the second health information, The control unit 50 can control the information to be shared by the host terminal 40 or the hospital terminal 50 by calculating the information by the respective analysis algorithms and communicating the calculated information and the community space or advertisement information between the owners of the companion animals.

The host terminal 40 confirms the movement information, the position information, and the vital sign information of the pet owned by the owner terminal 40, and transmits the first health information including the profile information of the companion animal, the feed information and the weight information to the sharing server 30 Information providing device. The host terminal 40 is provided with an Internet browser capable of displaying contents of the web so as to enable wireless internet communication with a wireless interface and is capable of transmitting and receiving images, And may be a terminal such as a smart phone capable of driving an application that implements such an operation. However, in the present invention, the type of the host terminal 40 is not limited, and it is possible to use not only a smart phone but also a PDA (personal digital assistant), a HPC (Hand Personal Computer), a web pad, a notebook, a WAP A personal digital assistant (PC), an e-Book terminal, and a hand held terminal (HHT).

6, the master terminal 40 includes a first communication unit 410, a first information request unit 420, a weight information receiving unit 430, a first information generating unit 440, An input unit 450, a first display unit 460, and a first control unit 470.

The first communication unit 410 is a device for transmitting and receiving data to or from the sensing device 10 or the shared server 30. The first communication unit 410 is connected to the sensing device 10 or the shared server 30 on the basis of a protocol stack defined in the communication network, Position information, movement information, vital sign information, and first health information (e.g., a first health information) by using a communication protocol defined in a communication program provided in the sensing device 10 or the shared server 30, And sends and receives the companion animal management data and the control command information including the same. However, the present invention does not limit the type of communication network, but may be applied to a Wi-Fi system, a ZigBee system, a Bluetooth system, an NFC system, a 3G system, a 4G system, an LTE system, a 5G system, .

The first information requesting unit 420 requests the user's desired health history information of the companion animal to the sharing server 30. The first information requesting unit 420 must perform a predetermined user (or member) authentication procedure to the shared server 30. When the request for history information of the companion animal is received from the first information requesting unit 420, the sharing server 30 transmits identification information of the companion animal, location information of the companion animal through communication with the sensing device 10 worn by the companion animal, Motion information, and vital sign information to the host terminal 40 or the hospital terminal 50. [0050]

The weight information receiving unit 430 receives the weight information of the companion animal measured through weight measuring means (not shown). That is, the weight information receiving unit 430 is connected to the weight measuring means provided in the automatic distribution apparatus 20 or separately provided therebetween, and receives weight information of the companion animal measured.

The first information generator 440 generates first health information including initial profile information of the companion animal and daily or periodic input information related to the feed information or weight information of the companion animal. The first information generating unit 440 receives the initial profile information of the companion animal and the daily or periodical input information related to the feed information or the weight information of the companion animal from the master terminal 40, And generates a first health information by signal processing. At this time, the initial profile information of the companion animal may include the type, breed, body size (height, height), date of birth, exercise information, and the like of the companion animal.

The first information input unit 450 accesses the sharing server 30 and inputs member information and first health information of the companion animal. The first information input unit 450 may be implemented through a first display unit 460 capable of touch input or may be implemented through a separate input unit.

The first display unit 460 displays at least one of the member information, the health history information of the companion animal, and the first health information. The first display unit 460 includes a liquid crystal display (LCD), a liquid crystal display (LED) , OLED (Organic LED) and AMOLED (Active Matrix OLED). In addition, the first display unit 460 may display behavior pattern information of the companion animal received from the sharing server 30, current health state information compared with the past health deterioration, target momentum setting information, Space, advertisement information, and the like. For example, the community space or advertisement information among the owner of the companion animal may be insurance product information such as a product / service evaluation and joint purchase such as a hospital, a feed, a beauty, and a reasonable companion animal incarnation through companion animal health information management.

The first control unit 470 is connected to the sensing device 10 or the shared server 30 by executing the companion animal application and stores the motion information, Vital sign information and controls the operation of each component constituting the host terminal 40 to provide the first health information including the profile information of the companion animal, the feed information and the weight information to the sharing server 30 .

Also, although not shown, the master terminal 40 may be provided with a reader unit for reading the unique identification information of the companion animal.

The hospital terminal 50 is a terminal device of a hospital performing feces detection or treatment for a companion animal. The terminal terminal 50 is a terminal device of a hospital that performs feces detection test result information on the companion animal, information on the date of visit of the companion animal, And provides second health information including history information. The hospital terminal 50 is provided with an Internet browser capable of displaying the contents of the web so as to enable wired / wireless Internet communication by having a wired / wireless interface, and is connected to an external terminal device to transmit / receive images, And may be a terminal such as a computer device or smart phone capable of running an application that implements such an operation.

As shown in FIG. 7, the hospital terminal 50 includes a second communication unit 510, a second information request unit 520, a waste information receiving unit 530, a second information generating unit 540, An input unit 550, a second display unit 560, and a second control unit 570.

The second communication unit 510 is a device for transmitting and receiving data to and from the shared server 30 and connects the predetermined communication channel with the shared server 30 based on the protocol stack defined in the communication network, And transmits and receives the second health information of the companion animal, the companion animal management data and the control command information including the second health information, using the communication protocol defined in the provided communication program. However, the present invention does not limit the type of communication network, but may be applied to Wi-Fi, ZigBee, Bluetooth, 3G, 4G, LTE, and the like.

The second information requesting unit 520 requests the health history information of the companion animal desired by the hospital manager to the sharing server 30. The second information requesting unit 520 must perform a predetermined user (or member) authentication procedure to the shared server 30. When the request for history information of the companion animal is received from the second information requesting unit 520, the sharing server 30 transmits identification information of the companion animal, location information of the companion animal through the communication with the sensing device 10 worn by the companion animal, Information, motion information, and vital sign information to the hospital terminal 50.

The small / medium-sized information receiver 530 receives the small / small-sized inspecting result information of the companion animal performed through the small / medium inspecting means (not shown). That is, the feces / feces information receiver 530 is connected to the feces / feces inspecting unit provided in the hospital through a wired / wireless communication network, and receives the feces and test result information of the measured companion animal.

The second information generator 540 generates second health information including the feces test result information, the visit date, the visit date and the treatment information of the companion animal, and the vaccination history information. The second information generator 540 receives the feces and test result information of the companion animal received from the feces inspecting means and the information on the visit date, visit date and treatment information of the companion animal and the vaccination history information from the hospital terminal 50 Receives the input information, processes the input information, and generates one second health information.

The second information input unit 550 accesses the shared server 30 and inputs member information and second health information of the companion animal. The second information input unit 550 may be implemented through a second display unit 560 capable of touch input or may be implemented through a separate input unit.

The second display unit 560 displays at least one of the member information, the health history information of the companion animal, and the second health information. The second display unit 560 uses an LCD, an LED, an OLED, and an AMOLED method.

The second control unit 570 is connected to the shared server 30 by executing the companion animal application and is connected to the shared server 30 to compare the feces feces test result information with the companion animal and the date of visit of the companion animal, And treatment information, and second health information including vaccination history information.

Also, although not shown, the hospital terminal 50 may be provided with a reader unit for reading the unique identification information of the companion animal.

Since the object Internet-based companion life-cycle management system configured as described above shares the health information of the companion animal with stakeholders such as the owner, the veterinary hospital, the pet shop, the goods store, etc., Contribute to the preventive management system of the animal and improve the present high cost structure. In addition, one embodiment of the present invention monitors the most effective meal, water intake, and exercise amount as a daily management index for companion health management, and performs preventive health management through periodic excretory inspection and regular health checkup Therefore, it is possible to lower the probability of occurrence of a high-cost occurrence situation due to post-disease response. In an embodiment of the present invention, a device for collecting object data and a platform for storing a large amount of data are constructed, and the accumulated data is analyzed through analytics and converted into a database. Therefore, a signal for prevention is detected Action can be taken. In addition, one embodiment of the present invention utilizes social network service (SNS) to share information accumulated within individuals or individual families who raise companion animals and to enlarge them, thereby improving the quality of companion animal management using various information, Can be rationalized. In addition, one embodiment of the present invention utilizes SNS as a supplementary expectation effect, and it is utilized as a Pumasi hub to take charge of each other in place of a high-cost hotel ring service, so that it can take care of the owner free of charge for a long time Since it provides an alternative, it is possible to reduce the cause of companion organism.

The present invention is not limited to the above-described embodiments, but may be implemented in various ways as set forth in the following claims, It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

10: sensing device 20: automatic distribution device
30: Shared server 40: Host terminal
50: Hospital terminal 110: Body part
120: detection module 121: first transmission /
122: identification information storage unit 123: motion detection unit
124: GPS unit 125: Biometric information sensing unit
126: Information generating unit 127:
128: first control unit 210: second transmission /
220: Ratification information calculation unit 230: Intake amount information calculation unit
240: distribution information storage unit 250: second control unit
310: Communication module 315: Information receiving module
320: momentum history information calculation module 325: momentum evaluation module
330: ingestion calorie history information calculating module
335: Consumed Calorie History Information Calculation Module
340: Information sharing module 350: Storage module
360: Weight estimation module 370: Required calorie calculation module
380: feed information extraction module 390: control module
410: first communication unit 420: first information request unit
430: weight information receiving unit 440: first information generating unit
450: first information input unit 460: first display unit
470: first control unit 510: second communication unit
520: second information requesting unit 530:
540: second information generating unit 550: second information inputting unit
560: second display section 570: second control section

Claims (12)

A sensing device which is worn on a companion animal and senses information on the amount of exercise;
An automatic distribution device for distributing feed and water according to preset feed ration information to the companion animal and measuring information on the amount of feed and water consumed by the companion animal; And
And a controller configured to receive the exercise amount information, the rationing amount and the intake amount information from the sensing device and the automatic dispensing device, calculate the exercise amount history information of the companion animal using the received exercise amount information, The calorie history information of the companion animal is calculated using the received ration information and the intake amount information and the calorie information of the rationed feed and water by comparing the reference momentum information with the calorie history information of the companion animal, Information on the consumed calorie history information of the companion animal by applying the information to the calorie conversion program, and sharing the result of the exercise amount evaluation, the calculated calorie intake history information and the consumed calorie history information through the SNS (Social Network Service) A server, comprising: Net-based companion animal life cycle management systems.
The method according to claim 1,
The sensing device
A body part worn on a part of the body of the companion animal; And
And a sensing module for sensing the amount-of-movement information of the companion animal by executing an information providing program installed in the body part and providing the information to the sharing server. .
The method of claim 2,
The sensing module
A first transmission / reception unit for transmitting / receiving data to / from the shared server;
An identification information storage unit for storing unique identification information of the companion animal;
A motion detection unit for detecting motion information of the companion animal;
A GPS unit for detecting position information of the companion animal;
A biometric information sensing unit for sensing vital sign information of the companion animal;
An information generating unit for generating momentum information including the unique identification information, the motion information, the position information, and the vital sign information;
An alarm unit for outputting an alarm signal received from an external device; And
And a first controller for controlling the operation of each component constituting the detection module.
The method of claim 3,
The biometric information sensing unit
And a sensor for detecting at least one of body temperature, pulse, and blood pressure of the companion animal.
The method according to claim 1,
The automatic distribution apparatus
A second transmitting / receiving unit for transmitting / receiving data to / from the shared server;
A ration information calculation unit for measuring a first weight of feed or water distributed to the companion animal and calculating ration information using the measured first weight;
An intake amount information calculation unit for measuring a second weight of the feed or water after being consumed by the companion animal and calculating the intake amount information using the difference between the measured second weight and the first weight;
A ration information storage unit for storing the ration distribution information set in advance including the weight information of the daily distribution ration or water of the companion animal, the daily ration number information, the daily or weekly diet information, and the calculated ration amount information and the intake amount information; And
And a second control unit for controlling the operation of each component constituting the automatic distribution apparatus.
The method according to claim 1,
The shared server
A communication module for transmitting and receiving data to and from the sensing device and the automatic distribution device;
An information receiving module for receiving the exercise amount information, the rationing amount and the intake amount information from the sensing device and the automatic distribution device, respectively;
A momentum history information calculating module for calculating momentum history information of the companion animal using the received momentum information;
A momentum evaluation module for comparing the momentum history information with a preset reference momentum information of the companion animal to evaluate the momentum of the companion animal;
An intake calorie history information calculating module for calculating intake calorie history information of the companion animal using the received intake amount information and calorie information of the delivered feed and water;
A consumed calorie history information calculating module for calculating consumed calorie history information of the companion animal by applying the exercise amount history information to a preset calorie conversion program;
An information sharing module for sharing the exercise amount evaluation result, the calculated calorie intake history information and the consumed calorie history information through the SNS;
A storage module for storing the exercise amount information, the ration amount and the intake amount information, the exercise amount history information, the reference exercise amount information, the exercise amount evaluation information, the intake calorie history information, the calorie conversion program, the consumed calorie history information, And
And a control module for controlling an operation of each component constituting the shared server.
The method according to claim 1,
A master terminal for providing first health information including profile information, feed information and weight information of the companion animal; And
Further comprising a hospital terminal for providing second health information including information on feces test results for the companion animal, date and time of visit of the companion animal, inspection and treatment information for each visit date, and vaccination history information, Life - cycle management system for object - based companion animals.
The method of claim 7,
Wherein the host terminal receives the exercise amount information from the sensing device and transmits the received exercise amount information together with the first health information to the sharing server.
The method of claim 7,
The host terminal
A first communication unit for transmitting / receiving data to / from the sensing device or the shared server;
A first information requesting unit for requesting the user for desired health history information of the companion animal to the shared server;
A weight information receiving unit for receiving the weight information of the companion animal measured through the weight measuring means;
A first information generating unit for generating first health information including initial profile information of the companion animal and daily or periodic input information related to feed information or weight information of the companion animal;
A first information input unit connected to the shared server for inputting member information and first health information of the companion animal;
A first display unit for displaying at least one of the member information, the health history information of the companion animal, and the first health information; And
And a first control unit mounted with a companion animal management application and connected to the sensing device or the shared server by execution of the companion animal application to control the operation of each component constituting the host terminal Internet based companion life cycle management system.
The method of claim 9,
The shared server
A body weight evaluation module for comparing the body weight information of the companion animal with the body weight information set in advance and evaluating the excess or the degree of undercorrection with respect to the body weight of the companion animal;
A necessary calorie calculation module for calculating a required calorie corresponding to the evaluated excess or inferiority degree by a predetermined required calorie calculation program; And
Further comprising a feed information extracting module for extracting feed information for supplementing the calculated required calories,
And sharing the extracted feed information through the SNS.
The method of claim 9,
The hospital terminal
A second communication unit for transmitting / receiving data to / from the shared server;
A second information requesting unit for requesting a healthcare history information of a companion animal desired by the hospital manager to the shared server;
A feces information receiving unit for receiving feces information of the companion animal performed through the feces inspecting means;
A second information generator for generating second health information including the feces test result information, the visit date, the visit date and treatment information of the companion animal, and the vaccination history information;
A second information input unit connected to the shared server for inputting member information and second health information of the companion animal;
A second display unit for displaying at least one of the member information, the health history information of the companion animal, and the second health information; And
And a second control unit connected to the shared server by the execution of the companion animal application and controlling the operation of each component constituting the hospital terminal, Animal life cycle management system.
The method of claim 11,
The shared server
Wherein the first health information, the second health information, and the meal information of the companion animal are shared with the host terminal or the hospital terminal through the SNS.

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