CN114303979B - Pet feeding method, system, storage medium and device based on OneM2M - Google Patents

Abstract

The invention discloses a method, a system, a storage medium and a device for feeding a pet based on OneM2M, and relates to the technical field of pet feeding. The invention comprises the following steps: the connection link is identified, then connected to the pet feeding device terminal, and community personal account creation information is received. The invention carries out anonymization processing on data through oneM2M protocol by communicating hardware and software, so that the data transmission process is safer.

Description

Pet feeding method, system, storage medium and device based on OneM2M

Technical Field

The invention belongs to the technical field of pet feeding, and particularly relates to a method, a system, a storage medium and a device for feeding a pet based on OneM 2M.

Background

Among the existing products, the exquisite cat/Exquisite Meow feeder is internally provided with an embedded system, so that the timing feeding is realized, the situation that the pet does not have food to eat is prevented, and the overeating of the pet can be prevented. However, the disadvantage is that remote control is not possible and the owner cannot individually put in the food at any time and any place. In addition, the user cannot remotely check the remaining amount of food, and cannot know whether food is sufficient outdoors in real time.

In the prior art, the representative scheme is a remote pet feeder based on an ESP8266, and the remote pet feeder comprises a mobile phone terminal, a power module and a feeding module.

The mobile phone terminal is connected with the ESP8266 Wi-Fi module through the cloud server, an App which sends instructions of feeding and water to the ESP8266 Wi-Fi module is installed in the mobile phone terminal, and food allowance and water allowance can be checked at the App. The power module comprises a working power supply and a control power supply, and the working power supply can be a charger or a battery pack. The control power supply is electrically connected with the Arduino master control module; the feeding module comprises a feeder, an ESP8266 Wi-Fi module and an Arduino master control module. And setting feeding time and water feeding time in an Arduino main control module. The feeding action of the feeding module controls the steering engine through the ESP8266 Wi-Fi module, so that the steering engine drives the food cover plate connected with the steering engine to move back and forth, and food can fall into the tray in front of the device. When the host goes out, the host remotely controls the feeding of the feeder and the water feeding, so that irregular feeding of the pet is avoided; the feeder has the advantages of low production cost, simple operation and wide application range. However, the remote pet feeder based on the ESP8266 has no temperature and humidity sensor, cannot measure indoor temperature and humidity, cannot perform visual analysis on collected data, and enables a user to mist the equipment at one time. In the feeding system, the food allowance in the food basin also has a certain design defect, and the current food basin cat food allowance is measured by utilizing the ultrasonic sensor to detect the distance through ultrasonic waves, because the cat food particles are too large or the cat food is not uniformly distributed on one layer, the measurement of the ultrasonic waves can be inaccurate, and when the ultrasonic waves happen to pass through a gap of the food, larger system errors can be caused.

Disclosure of Invention

The invention aims to provide a method, a system, a storage medium and a device for feeding a pet based on OneM2M, which solve the technical problems that the existing pet feeding device is not provided with a temperature and humidity sensor, cannot measure indoor temperature and humidity, cannot perform visual analysis on acquired data, and a user can mist the working condition of equipment at one time.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a OneM 2M-based pet feeding method comprising:

identifying a connection link, then connecting with a pet feeding equipment terminal, and receiving community personal account creation information;

receiving pet information input by a user and monitoring information sent by the pet feeding equipment in real time or at regular time, and storing the pet information and the monitoring information into a memory;

receiving sharing range information input by a user and/or sharing authority range information and/or sharing mode information input by the user;

and according to the set sharing range information and/or sharing mode information, retrieving information from a memory and sharing the information to the community.

Optionally, the pet information includes one or more of pet age information, pet weight information, and pet weight information; the monitoring information includes one or more of indoor temperature information, water level remaining amount information, timing water level difference information, food remaining amount information, and food amount difference information.

Optionally, the shared range information includes one or more of indoor temperature information, water level remaining amount information, timing water level difference information, food remaining amount information, and food amount difference information; the sharing authority range is any one of visible to all people, visible to nearby people and visible to friends; the sharing mode is to disclose the account name or anonymize the account name through oneM2M protocol.

A OneM 2M-based pet feeding system, comprising:

the link identification module is used for identifying a connection link and is connected with the terminal of the pet feeding equipment;

the information receiving module is used for receiving pet information input by a user and monitoring information sent by the pet feeding equipment in real time or at regular time, and storing the pet information and the monitoring information into the memory;

the sharing setting module is used for receiving the set sharing authority range information and/or sharing mode information input by the user and receiving the set sharing range information input by the user;

and the sharing module is used for retrieving information from the memory and sharing the information to the community according to the set sharing range information and/or sharing mode information.

A OneM 2M-based pet feeding device, comprising: the weighing type pet water cup comprises a shell, a weighing type food basin and a water storage box, wherein the weighing type food basin and the water storage box are arranged on the outer side of the shell, and the side part of the water storage box is connected with a pet water cup and a water level sensor which is arranged in the pet water cup and is connected with a second development plate;

the second development board and the feeding mechanism are arranged in the shell, and the weighing module connected with the second development board is arranged on the bottom surface of the weighing food basin.

Optionally, go out edible mechanism including install the storage hamper in outer box, install the steering wheel module in outer box inner wall one side, be connected with the steering wheel module and with store up the corresponding transfer switch of hamper, and transfer switch is located and store up the hamper below.

Optionally, a grain outlet hopper corresponding to the weighing basin and the food storage box is arranged on the outer box, one end of the grain outlet hopper extending out of the outer box is positioned above the weighing basin, one end of the grain outlet hopper positioned in the outer box is positioned below the food storage box and the conveying switch, an ultrasonic ranging module is arranged on the upper side of the food storage box, and the ultrasonic ranging module is connected with the second development board; a double Kong Xuanbei beam type weighing sensor is arranged on the outer side of the shell, and the double Kong Xuanbei beam type weighing sensor is connected with the second development plate and the weighing module.

Optionally, a temperature and humidity sensor module and a relay module which are connected with the second development board are arranged in the shell; the water storage box is internally provided with a water pump, and the water outlet end of the water pump is provided with a water suction pipe connected with the pet water cup.

Optionally, a low warehouse food allowance warning LED and a low warehouse water allowance warning LED are arranged on the shell, and the low warehouse food allowance warning LED and the low warehouse water allowance warning LED are connected with the second development board; the pet feeding method based on OneM2M as claimed in any one of claims 1 to 3 is realized by a display arranged on a housing, a first development board connected with the display and a second development board is arranged in the housing, a memory connected with the first development board is arranged in the housing, at least one instruction is stored in the memory, and a processor executes the instruction stored in the memory.

A OneM 2M-based storage medium for pet feeding, comprising: the storage medium includes at least one instruction stored thereon that is executable by a processor in the OneM 2M-based pet feeding device to implement the OneM 2M-based pet feeding method.

The embodiment of the invention has the following beneficial effects:

according to the embodiment of the invention, the data transmission process is safer by anonymizing the data through the oneM2M protocol through communication between hardware and software, the application is optimized on a plurality of terminal devices and multi-user operation levels, so that a user can access the application at the mobile phone end and the webpage end simultaneously, the mobile phone end and the webpage end can control the application, the control on the hardware level is convenient, the application designs a user community module, and users can share communication in a user community in the future when the application has large-scale application crowd, and the user viscosity is improved.

Of course, it is not necessary for any one product to practice the invention to achieve all of the advantages set forth above at the same time.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention. In the drawings:

FIG. 1 is a schematic view of the outside structure of a housing according to an embodiment of the present invention;

FIG. 2 is a schematic view showing an internal structure of a housing according to an embodiment of the present invention;

FIG. 3 is a circuit diagram of an embodiment of the present invention;

FIG. 4 is a system schematic block diagram of an embodiment of the present invention;

fig. 5 is a schematic diagram illustrating operation of oneM2M communication protocol according to an embodiment of the present invention.

Wherein the above figures include the following reference numerals:

display 1, warehouse food surplus excessively low warning LED2, warehouse water surplus excessively low warning LED3, grain discharging hopper 4, weighing basin 5, water pumping pipe 6, water storage box 7, water pump 8, water level sensor 9, pet cup 10, temperature and humidity sensor module 11, food storage box 12, weighing module 13, relay module 14, ultrasonic ranging module 15, first development board 16, steering engine module 17, transfer switch 18, double Kong Xuanbei beam weighing sensor 19, second development board 20.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. The following description of at least one exemplary embodiment is merely exemplary in nature and is in no way intended to limit the invention, its application, or uses.

In order to keep the following description of the embodiments of the present invention clear and concise, the detailed description of known functions and known components thereof have been omitted.

In this embodiment, there is provided a OneM 2M-based pet feeding method, including:

identifying a connection link, then connecting with a pet feeding equipment terminal, and receiving community personal account creation information;

receiving pet information input by a user and monitoring information sent by the pet feeding equipment in real time or at regular time, and storing the pet information and the monitoring information into a memory; the pet information comprises one or more of pet age information, pet weight information and pet weight information; the monitoring information comprises one or more of indoor temperature information, water level residual quantity information, timing water level difference information, food residual quantity information and food quantity difference information;

receiving sharing range information input by a user and/or sharing authority range information and/or sharing mode information input by the user; the shared range information comprises one or more of indoor temperature information, water level residual amount information, timing water level difference information, food residual amount information and food quantity difference information; the sharing authority range is any one of visible to all people, visible to nearby people and visible to friends; the sharing mode is to disclose account names or anonymize account names through oneM2M protocol;

and according to the set sharing range information and/or sharing mode information, retrieving information from a memory and sharing the information to the community.

A OneM 2M-based pet feeding system, comprising:

the link identification module is used for identifying the connection link and is connected with the terminal of the pet feeding equipment;

the information receiving module is used for receiving pet information input by a user and monitoring information sent by the pet feeding equipment in real time or at regular time, and storing the pet information and the monitoring information into the memory;

the sharing setting module is used for receiving the set sharing authority range information and/or sharing mode information input by the user and receiving the set sharing range information input by the user;

and the sharing module is used for retrieving information from the memory and sharing the information to the community according to the set sharing range information and/or sharing mode information.

Referring to fig. 1-3, an OneM 2M-based pet feeding device includes: the weighing type pet water cup comprises a shell, a weighing type food basin 5 and a water storage box 7, wherein the weighing type food basin 5 and the water storage box 7 are arranged outside the shell, and the side part of the water storage box 7 is connected with a pet water cup 10 and a water level sensor 9 which is arranged in the pet water cup 10 and is connected with a second development board 20;

the second development board 20 and the feeding mechanism are arranged in the shell, and the weighing module 13 connected with the second development board 20 is arranged on the bottom surface of the weighing food basin 5.

The specific food outlet mechanism comprises a food storage box 12 arranged in the outer box, a steering engine module 17 arranged on one side of the inner wall of the outer box, and a transmission switch 18 connected with the steering engine module 17 and corresponding to the food storage box 12, wherein the transmission switch 18 is positioned below the food storage box 12.

The specific outer box is provided with a grain outlet hopper 4 corresponding to the weighing edible basin 5 and the food storage box 12, one end of the grain outlet hopper 4 extending out of the outer box is positioned above the weighing edible basin 5, one end of the grain outlet hopper 4 positioned in the outer box is positioned below the food storage box 12 and the conveying switch 18, the upper side of the food storage box 12 is provided with an ultrasonic ranging module 15, and the ultrasonic ranging module 15 is connected with a second development plate 20; the outer side of the shell is provided with a double Kong Xuanbei beam type weighing sensor 19, and the double Kong Xuanbei beam type weighing sensor 19 is connected with the second development plate 20 and the weighing module 13.

The specific shell is internally provided with a temperature and humidity sensor module 11 and a relay module 14 which are connected with a second development board 20; the water storage box 7 is internally provided with a water pump 8, and the water outlet end of the water pump 8 is provided with a water suction pipe 6 connected with a pet water cup 10.

The specific shell is provided with a warehouse food surplus too low warning LED2 and a warehouse water surplus too low warning LED3, and the warehouse food surplus too low warning LED2 and the warehouse water surplus too low warning LED3 are connected with the second development board 20; the display 1 is arranged on the shell, the first development board 16 connected with the display 1 and the second development board 20 is arranged in the shell, the memory connected with the first development board 16 is arranged in the shell, the memory stores at least one instruction, and the processor executes the instruction stored in the memory to realize the OneM 2M-based pet feeding method according to any one of claims 1-3.

A OneM 2M-based storage medium for pet feeding, comprising: the storage medium includes at least one instruction stored thereon that is executable by a processor in the OneM 2M-based pet feeding device to implement the OneM 2M-based pet feeding method.

The display 1 selects a 3.5 inch TFT-LCD display 1, the temperature and humidity sensor module 11 selects a DHT11 temperature and humidity sensor module 11, the weighing module 13 selects a HX711 weighing module 13, the ultrasonic ranging module 15 selects an HC-SR04 ultrasonic ranging module 15, the first development board 16 selects an ESTM32F103RCT6 development board 16, and the second development board 20 selects an ESP8266-NodeMCU development board 20.

ESP8266-NodeMCU development board 20

ESP8266-NodeMCU development board 20 is a MCU development board integrated with Wi-Fi function, can directly connect Wi-Fi, development environment diversification is also the current popular internet of things chip.

For the selection of the main control module, the ESP8266-NodeMCU development board 20 not only meets basic requirements such as networking and rich interfaces, but also has low production cost; the operation is simple; has the advantage of wider application range.

The HX711 weighing module 13 is a 24-bit A/D converter chip designed for high-precision weighing sensors. Compared with other chips of the same type, the chip integrates peripheral circuits required by other chips of the same type, such as a stabilized voltage supply, an on-chip clock oscillator and the like, and has the advantages of high integration level, high response speed, strong anti-interference performance and the like. The cost of the whole pet feeding system is reduced, and the performance and reliability of the whole pet feeding system are improved.

An cantilever type weighing sensor 19 is placed at the bottom of the weighing basin for measuring the residual weight of the current grain.

The double Kong Xuanbei beam weighing sensor 19 is a resistance strain type pressure sensor, when weight changes are generated, voltage changes are generated, the HX711 module A channel has 128 times of signal gain, 5mV voltage can be amplified by 128 times, then 24bit AD conversion values are sampled and output, and the single chip microcomputer reads 24bit data through a specified time sequence. And then further converted into a numerical change of weight according to a calculation formula. So that the change of the residual quantity of the current grain can be observed.

HC-SR04 ultrasonic ranging module

The HC-SR04 ultrasonic ranging module can provide a non-contact distance sensing function of 2cm-400cm, and the ranging accuracy can reach 3mm; the module comprises an ultrasonic transmitter, a receiver and a control circuit. The module is placed above the grain warehouse, and the residual grain food in the warehouse is measured by measuring the distance between grains and the ultrasonic sensor.

Steering engine module 17

The steering engine module 17 is a driver for position and angle servo, and is suitable for control systems which need continuous change of angle and can keep the angle. Have found widespread use in high-end remote control toys, such as aircraft, submarine models, and remote control robots.

This module is used in this project to control the switching of the food warehouse.

DHT11 temperature and humidity sensor module 11

The DHT11 digital temperature and humidity sensor is a temperature and humidity composite sensor with calibrated digital signal output, and the temperature and humidity composite sensor applies a special digital module acquisition technology and a temperature and humidity sensing technology to ensure that a product has extremely high reliability and excellent long-term stability. The sensor comprises a resistance type humidity sensing element and an NTC temperature measuring element, and is connected with a high-performance 8-bit singlechip. Therefore, the product has the advantages of excellent quality, ultrafast response, strong anti-interference capability, extremely high cost performance and the like. Each DHT11 sensor is calibrated in a very accurate humidity verification chamber. The calibration coefficients are stored in the OTP memory in the form of a program, and are called in the sensor during the processing of the detection signal. The single-wire serial interface enables system integration to be simple and quick. The ultra-small volume and the extremely low power consumption make the ultra-small volume and the extremely low power consumption become the best choice in the severe application occasions. The product is 4-pin single-row pin package, and the connection is convenient.

Selection of communication protocols

Communication is critical to the technology of the Internet of things, and the development of the Internet of things is affected by both the short-range wireless transmission technology and the mobile communication technology. A communication protocol refers to rules and conventions that must be followed by two parties to an entity to complete a communication or service. In this project, oneM2M communication protocols are used to support data transmission.

oneM2M will be responsible for addressing the critical needs independent of the generic M2M service layer in the access network; the system can be embedded into various software and hardware more conveniently, and a large number of M2M devices are connected through M2M application servers distributed all over the world, so that the prospect of Internet of things is realized.

The purposes of oneM2M are to integrate the related standards and resources of each party M2M on the oneM2M platform, so that the targets established by oneM2M standards are focused on the application layer and the service function layer, and the network layer and the sensing layer are not in the discussion range of oneM 2M.

This means that future M2M communication will be performed over existing wired/wireless networks, such as a Local Area Network (LAN) at the M2M device end uses existing Power Line Communication (PLC), zigBee, wireless local area Network (Wi-Fi) technology, and an M2M Core Network (Core Network) uses existing wireless Network technologies such as 2/3/4G, while oneM2M will be responsible for solving the key requirement of the M2M service layer that is general in the access Network; the system can be embedded into various software and hardware more conveniently, and a large number of M2M devices are connected through M2M application servers distributed all over the world, so that the prospect of Internet of things is realized.

Visualization of interactions and results of data

The result of the sensor acquisition channel is visualized at the front end, and remote operation can be performed through a button at the front end.

As shown in fig. 4 to 5, the current water level of the pet water cup 10 is measured by the water level sensor 9 and data is transmitted to the ESP 8266-nodebu development board 20;

the temperature and humidity in the room are measured through the DHT11 temperature and humidity sensor module 11, and data are transmitted to the ESP8266-NodeMCU development board 20;

the residual quantity of grains in the current warehouse is calculated by measuring the distance of the grain plane of the grain warehouse through the HC-SR04 ultrasonic ranging module 15, the grain is placed at the bottom of the weighing basin through the cantilever type weighing sensor 19, the residual quantity weight of the grains in the current basin is measured, and the data is transmitted to the ESP8266-NodeMCU development board 20;

ESP8266-NodeMCU development board 20 receives the data and sends the data to information receiving module through wifi module and oneM2M communication protocol and shows to the front end page, the front end page is through wifi module and oneM2M communication protocol to ESP8266-NodeMCU development board 20 the control command control equipment that sends, thereby realize ESP8266-NodeMCU development board 20 control steering engine module 17 rotate and emit grain and relay module 14 switch open water pump 8 water pumping, the user can long-range view the surplus of food, the surplus of water level, whether the outdoor real-time understanding food is sufficient, whether the long-range grain of adding and water that adds of decision simultaneously, thereby realize user remote control equipment work, and monitor the real-time situation of equipment.

1. Communication between hardware and software is carried out through oneM2M protocol, anonymization treatment is carried out on data, and the data transmission process is safer. Most of the existing applications do not deal with the encapsulation and security measures of the data transfer process.

2. The application uses the latest SpringBoot frame, VUE frame and the like to render and rapidly deploy the webpage in the aspect of a software website, and improves the rapid deployment capability and the visualization degree of the application. Most of the prior art is only realized on a hardware level, and the improvement of work on the human-hardware interaction level is not enough, so that the user experience is not high.

3. The application is optimized in a plurality of terminal devices and multi-user operation levels, so that a user can access the application at the mobile phone end and the webpage end simultaneously, and the mobile phone end and the webpage end can control the application, thereby being convenient for controlling the hardware level. The prior art has mostly not performed multi-terminal processing and design.

4. The application designs the user community module, so that users can share communication in the user community in the future when the application has large-scale application crowd, and the user viscosity is improved. Most of the prior applications do not design user communities, users have no home feeling to products, and the viscosity is not strong.

The above embodiments may be combined with each other.

It should be noted that the terms "first," "second," and the like in the description and claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the present application described herein may be implemented in sequences other than those illustrated or described herein.

In the description of the present invention, it should be understood that the azimuth or positional relationships indicated by the azimuth terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal", and "top, bottom", etc., are generally based on the azimuth or positional relationships shown in the drawings, merely to facilitate description of the present invention and simplify the description, and these azimuth terms do not indicate and imply that the apparatus or elements referred to must have a specific azimuth or be constructed and operated in a specific azimuth, and thus should not be construed as limiting the scope of protection of the present invention; the orientation word "inner and outer" refers to inner and outer relative to the contour of the respective component itself.

Claims (3)

1. A method of pet feeding based on OneM2M comprising:

identifying a connection link, then connecting with a pet feeding equipment terminal, and receiving community personal account creation information;

receiving pet information input by a user and monitoring information sent by the pet feeding equipment in real time or at regular time, and storing the pet information and the monitoring information into a memory;

receiving sharing range information input by a user and/or sharing authority range information and/or sharing mode information input by the user;

according to the set sharing range information and/or sharing mode information, information is called from a memory and shared to a community;

the pet information comprises one or more of pet age information and pet weight information; the monitoring information comprises one or more of indoor temperature information, water level residual quantity information, timing water level difference information, food residual quantity information and food quantity difference information;

the shared range information comprises one or more of indoor temperature information, water level residual amount information, timing water level difference information, food residual amount information and food quantity difference information; the sharing authority range is any one of visible to all people, visible to nearby people and visible to friends;

the sharing mode is to disclose account names or anonymize account names through OneM2M protocol;

a OneM 2M-based pet feeding device using a OneM 2M-based pet feeding method, comprising: the weighing type pet water cup comprises a shell, a weighing type food basin (5) arranged on the outer side of the shell, a water storage box (7), a pet water cup (10) and a water level sensor (9) arranged in the pet water cup (10) and connected with a second development board (20);

the second development board (20) and the feeding mechanism are arranged in the shell, and the weighing module (13) connected with the second development board (20) is arranged on the bottom surface of the weighing edible basin (5);

the food outlet mechanism comprises a food storage box (12) arranged in the shell, a steering engine module (17) arranged on one side of the inner wall of the shell, and a transmission switch (18) which is connected with the steering engine module (17) and corresponds to the food storage box (12);

the outer shell is provided with a grain outlet hopper (4) corresponding to the weighing basin (5) and the food storage box (12), one end of the grain outlet hopper (4) extending out of the outer shell is positioned above the weighing basin (5), one end of the grain outlet hopper (4) positioned in the outer shell is positioned below the food storage box (12) and the conveying switch (18), the upper side of the Chu Shihe (12) is provided with an ultrasonic ranging module (15), and the ultrasonic ranging module (15) is connected with the second development board (20); the outer side of the shell is provided with a double Kong Xuanbei beam type weighing sensor (19), and the double Kong Xuanbei beam type weighing sensor (19) is connected with the second development plate (20) and the weighing module (13);

a temperature and humidity sensor module (11) and a relay module (14) which are connected with the second development board (20) are arranged in the shell; a water pump (8) is arranged in the water storage box (7), and a water suction pipe (6) connected with a pet water cup (10) is arranged at the water outlet end of the water pump (8);

the shell is provided with a warehouse food surplus too low warning LED (2) and a warehouse water surplus too low warning LED (3), and the warehouse food surplus too low warning LED (2) and the warehouse water surplus too low warning LED (3) are connected with the second development board (20); the display (1) is arranged on the shell, the first development board (16) connected with the display (1) and the second development board (20) is arranged in the shell, the memory connected with the first development board (16) is arranged in the shell, the memory stores at least one instruction, and the processor executes the instruction stored in the memory.

2. A OneM 2M-based pet feeding system employing the pet feeding method of claim 1, comprising:

the link identification module is used for identifying a connection link and is connected with the terminal of the pet feeding equipment;

the information receiving module is used for receiving pet information input by a user and monitoring information sent by the pet feeding equipment in real time or at regular time, and storing the pet information and the monitoring information into the memory;

the sharing setting module is used for receiving the set sharing authority range information and/or sharing mode information input by the user and receiving the set sharing range information input by the user;

and the sharing module is used for retrieving information from the memory and sharing the information to the community according to the set sharing range information and/or sharing mode information.

3. A OneM 2M-based pet feeding storage medium using a OneM 2M-based pet feeding method, comprising: the storage medium includes at least one instruction stored thereon that is executable by the processor and implements the pet feeding method of claim 1.

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