KR102122027B1 - Unmanned equipment wireless communication device and server installed in mcu and capable of signal acquisition and control of unmanned equipment - Google Patents

Abstract

An unmanned equipment monitoring method performed in a wireless transmission/reception apparatus according to an embodiment includes a step of mirroring a signal generated from the unmanned equipment installed inside the unmanned equipment; Querying whether the unmanned device is abnormal as the mirrored signal is transmitted to a server through wireless communication; And receiving the analysis result analyzed in relation to the mirrored signal from the server and controlling the unmanned device.

Description

A wireless communication device and server installed in an unmanned equipment MCU that has signal collection and control functions for unmanned equipment.

The following description relates to a technology for controlling unmanned equipment by collecting and analyzing signals generated from unmanned equipment.

Unmanned systems such as vending machines are widely used in modern society. This unmanned system is applied to everyday life in various fields such as finance and distribution. As the structure of modern society has been westernized, many changes have been made to modern people's life patterns. As an example, as the proportion of single-parent couples and single men and women increases, and time saving and convenience are emphasized, the desire to solve laundry activities in the home, such as laundry or launderette, increases. The number of unattended laundry that can be over-dried is gradually increasing. This unmanned laundry room can be operated unmanned if there is only a washing machine and dryer in the laundry room, so there is no burden on the construction of a resident manpower, and a 24-hour operating system is available so that it can satisfy customers' needs as it is used regardless of time. It is establishing itself as a new paradigm. In this way, the unmanned sales system has an advantage that the store can be efficiently operated at the lowest cost, regardless of time and manpower.

On the other hand, since most of the various systems that control unmanned equipment are wired connection of kiosks and equipment to control and manage equipment, equipment construction cost, construction time, and kiosk space are required, so equipment management through wire is applied to the industry. It is difficult to do and the cost is also high. In addition, the existing unmanned equipment was not able to check sales and usage, and there was only a method of directly calculating cash sales. As a result, it is often the case that managers and repair technicians cannot detect even theft of cash.

Reference: KR10-2013-0120850, KR10-2015-0118009

Installed inside the unmanned equipment, it is possible to provide a wireless transmission/reception device that collects signals generated from the unmanned equipment and transmits the received signals to a server to monitor the unmanned equipment.

It is possible to provide a server that receives data from a plurality of unmanned equipment and a wireless transmission/reception device installed in the unmanned equipment, and provides an analysis result analyzing the received data.

A method for monitoring unmanned equipment performed in a wireless transmission/reception apparatus includes: installing a signal inside an unmanned equipment and mirroring a signal generated from the unmanned equipment; Querying whether the unmanned device is abnormal as the mirrored signal is transmitted to a server through wireless communication; And receiving the analysis result analyzed in relation to the mirrored signal from the server and controlling the unmanned device.

The step of mirroring the signal generated from the unmanned equipment, installed inside the unmanned equipment, is connected between the MCU and the payment unit of the unmanned equipment to identify the payment signal generated as the amount of money is input from the unmanned equipment, The step of storing the determined payment signal and determining whether the identified payment signal is abnormal, and querying whether the unmanned device is abnormal by transmitting the mirrored signal to a server through wireless communication, And transmitting information related to the abnormal payment signal obtained by determining whether the identified payment signal or the identified payment signal is abnormal, and the analysis result analyzed in relation to the mirrored signal at the server. The step of controlling the unmanned equipment is provided, and it is determined whether there is an abnormality in the store and unmanned equipment of the unmanned equipment related to the payment signal from the server, and whether the unmanned equipment has failed based on the number or interval of the payment signals. It may include the step of receiving the result of each determination obtained as determined, and remotely controlling the unmanned equipment based on the payment signal determined as a failure of the unmanned equipment.

The step of querying whether the unmanned device is abnormal as the mirrored signal is transmitted to a server through wireless communication is periodically transmitted at predetermined intervals until the server receives the mirrored signal, and the mirrored signal is transmitted. When a signal is not transmitted to the server, it is determined whether another unmanned device or another wireless transmission/reception device exists in the wireless communication coverage of the unmanned device or the wireless transmission/reception device, and the another unmanned device or the another wireless transmission/reception And sharing the mirrored signal with a device, and transmitting the mirrored signal to the server through the another unmanned device or the other wireless transmission/reception device.

The step of controlling the unmanned device by receiving the analysis result analyzed in relation to the mirrored signal from the server, determining the non-work time based on the usage amount of the unmanned device according to the analysis result analyzed by the server It may include the step of automatically turning on or off the power of the equipment.

In the unmanned equipment monitoring method, as power is supplied to the unmanned equipment, whether or not the unmanned equipment is registered is identified based on the identification information of the unmanned equipment, and the AP router set when power is supplied as the registration of the unmanned equipment is confirmed It may further include a step of automatically connecting.

A method for controlling an unmanned device performed by a server includes receiving a mirrored signal through wireless communication as a signal generated from the unmanned device is mirrored from a wireless transmission/reception device installed inside the unmanned device; Performing time series analysis on information related to the unmanned equipment or a product sold in connection with the unmanned equipment based on the mirrored signal; And providing an analysis result of performing the time series analysis to a wireless transmission/reception device or a web service.

The step of performing the time-series analysis may determine whether there is an abnormality in identification information of stores and unmanned devices related to the mirrored signal, based on the mirrored signal received from the wireless transmission/reception device, and the number of times the mirrored signal is transmitted. Or based on the interval to determine whether or not the failure of the unmanned equipment, each step of obtaining a result of the determination, and providing the analysis result of performing the time series analysis to a wireless transmission or reception device or a web service, the unmanned equipment And remotely controlling the unmanned device through a wireless transmission/reception device or a web service based on the determination result determined to be a failure of.

In the step of performing the time series analysis, information related to an unmanned device or a product sold in connection with the unmanned device, including price information, usage time information, and the number of unmanned device use based on the content of the message received from the wireless transmission/reception device It may include the step of analyzing.

In the step of performing the time series analysis, the sales information of the unmanned equipment obtained by performing the time series analysis is classified and stored according to a preset criterion, and the sales and usage status of the sales information classified according to the preset criterion are provided. It may include steps.

The wireless transmission/reception apparatus includes a mirror unit installed inside an unmanned equipment to mirror signals generated by the unmanned equipment; A query unit querying whether the unmanned device is abnormal as the mirrored signal is transmitted to a server through wireless communication; And a control unit that receives the analysis result analyzed in relation to the mirrored signal from the server and controls the unmanned device.

The mirroring unit is connected between the MCU and the payment unit of the unmanned device to identify the payment signal generated as the amount of money is input from the unmanned device, and stores the identified payment signal and determines whether the identified payment signal is abnormal. And determining, the querying unit includes transmitting information related to the abnormal payment signal obtained by determining whether the identified payment signal or the identified payment signal is abnormal to the server, and the control unit comprises: It is determined that the server determines whether there is an abnormality in the store or unmanned equipment related to the payment signal, and determines whether the unmanned equipment has failed based on the number or interval of the payment signals, and thus transmits the respective determination results obtained. It is possible to receive and remotely control the unmanned equipment based on the payment signal determined as the failure of the unmanned equipment.

The query unit periodically transmits the mirrored signal at predetermined intervals until the server receives it, and when the mirrored signal is not transmitted to the server, wireless communication coverage of the unmanned device or the radio transmission/reception device Determine whether there is another unmanned device or another wireless transmission/reception device within the device, and share the mirrored signal with the other unmanned device or the other wireless transmission/reception device to receive the another unattended device or the other wireless transmission/reception device. Through this, the mirrored signal can be transmitted to the server.

The controller can automatically supply or cut off the power of the unmanned equipment by grasping the non-working time based on the usage amount of the unmanned equipment according to the analysis result analyzed by the server.

The wireless transmission/reception device automatically identifies the registration of the unmanned device based on the identification information of the unmanned device as power is supplied to the unmanned device, and automatically sets the AP router when power is supplied as the registration of the unmanned device is confirmed. It may further include a connection portion connected to.

By securing the compatibility with various unmanned devices and performing wireless communication with the unmanned devices, it is possible to solve the inconvenience that had to be controlled by using a conventionally connected device.

It supports wireless communication, and even if it performs two-way communication with the server in real time, traffic to the server is low and it can support two-way communication in real time with multiple devices at the same time.

1 is a view for explaining the general operation of the unmanned system according to an embodiment.
2 is a view for explaining that an unmanned transmission/reception device is installed inside an unmanned equipment according to an embodiment.
3 is a view for explaining the operation of the server according to an embodiment.
4 is a block diagram illustrating a configuration of a wireless transmission/reception apparatus according to an embodiment.
5 is a flowchart illustrating a method of monitoring a wireless transmission/reception apparatus according to an embodiment.
6 is a block diagram illustrating the configuration of a server according to an embodiment.
7 is a flowchart illustrating a method for controlling unmanned equipment in a server according to an embodiment.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings.

1 is a view for explaining the general operation of the unmanned system according to an embodiment.

The unmanned system 100 collects and analyzes signals generated in relation to the unmanned device 120 to control the unmanned device 120, and the unmanned device 120, a wireless transmission/reception device (not shown) and the server 110 ).

The unmanned equipment 120 refers to a device that allows consumers to receive services or goods with unmanned items such as a coin washing machine, coin karaoke, and a self-car wash. Since most unmanned devices have no means to control, unmanned devices can be monitored by installing a wireless transmission/reception device capable of separate wireless communication to the unmanned devices 120.

The communication method of the network 130 is not limited, and a communication method using a communication network (eg, a mobile communication network, a wired Internet, a wireless Internet, a broadcast network) that the network 130 may include, as well as short-range wireless communication between devices. It can also be included. For example, the network 130 includes a personal area network (PAN), a local area network (LAN), a campus area network (CAN), a metropolitan area network (MAN), a wide area network (WAN), and a broadband network (BBN). , Any one or more of the networks such as the Internet. Further, the network 130 may include any one or more of a network topology including a bus network, a star network, a ring network, a mesh network, a star-bus network, a tree or a hierarchical network, etc. It is not limited.

The router 140 is a kind of router as a network and Internet equipment. The router 140 is a wired/wireless internet router, and is an AP that serves as a dangerous point for wireless LAN access. The router 140 refers to a network device that allows a plurality of electronic devices to share one Internet line and simultaneously access the Internet. For example, Wi-Fi communication between the unmanned device 120/wireless transmission/reception device and the server 110 is possible through the router 140.

Referring to FIG. 2, it is for describing a wireless transmission/reception device 200 installed inside the unmanned equipment 120. The wireless transmission/reception device 200 may be installed inside the unmanned equipment 120. Specifically, the wireless transmission/reception device 200 may be connected between the MCU of the unmanned device 120 and the payment unit. The unmanned equipment 120 may include a driving unit, an MCU, and a payment unit. The MCU of the unmanned equipment 120 can check the availability status, can count the payment signal, and can transmit a command to the driver. In addition, the MCU of the unmanned device 120 may transmit a payment signal to the payment unit. The wireless transmission/reception device 200 may be automatically connected to the AP router set as the power of the unmanned device 120 or the wireless transmission/reception device 200 is supplied.

The wireless transmission/reception device 200 may transmit identification information of the unmanned device 120 to the server to check whether the unattended device is normally registered. As the wireless transmission/reception device 200 transmits data such as the MAC address and payment signal of the unmanned device 120 to the server 110, the server 110 identifies the unmanned device through the MAC address of the unmanned device 120 and Can be classified. For example, the server may identify an unmanned device or a company associated with the unmanned device by comparing the registered information of an unmanned device or a company associated with the unmanned device with previously stored registration information.

The wireless transmission/reception device can measure the internal environment of the unmanned equipment. For example, the wireless transmission/reception device may measure the internal environment of the unmanned device using information related to the sensors installed in the unmanned device, or may use the sensors present inside the wireless transmission/reception device to monitor the internal environment of the unmanned device. Can be measured.

For example, the wireless transmission/reception device 200 may collect payment signals or data related to payment signals generated from the unmanned equipment through a separate device connected to the unmanned equipment. The wireless transmission/reception device 200 may complete the mirroring setting for mirroring the payment signal as it detects the attempt to input money into the unmanned equipment. In other words, as the wireless transmission/reception device 200 mirrors the payment signal generated from the unmanned equipment, it can grasp the currency information related to the money input to the unmanned equipment based on the mirrored payment signal. The wireless transmission/reception device 200 may automatically classify money information (100 won, 500 won, 50 won, 10 won, 1,000 won, 5,000 won, 10,000 won, 50,000 won, etc.) input to the unmanned equipment based on the mirrored payment signal. For example, the wireless transmission/reception apparatus 200 may receive the separated currency information, for example, a payment signal including 2000 won for two 1000 won users. In addition to cash, a payment signal may be received based on a card inserted into the unmanned equipment.

The wireless transmission/reception device 200 may identify and copy the payment signal generated between the MCU of the unmanned device 120 and the payment unit, and count the payment signal. The wireless transmission/reception device 200 may receive information related to payment (eg, payment permission, disallowance, etc.) in response to querying whether the mirrored payment signal is abnormal in the server 110. When the same payment signal is continuously attempted for a certain period of time based on the information received from the server 110, the wireless transmission/reception device 200 may detect that there is a payment error or risk of unmanned equipment, and may not allow payment. The wireless transmission/reception device 200 connected between the MCU of the unmanned equipment 120 and the payment unit may not only recognize the payment signal generated from the unmanned equipment, but also transmit the identified payment signal to the server through wireless communication.

The wireless transmission/reception device 200 may transmit payment information including identification information (for example, a serial number) and payment time of the unmanned equipment 120 to the server whenever a payment signal is input from the unmanned equipment 120. . At this time, when the payment signal is not transmitted to the server, the wireless transmission/reception device 200 may store and store data related to the payment signal, and periodically retry until the payment signal is transmitted to the server. For example, the wireless transmission/reception device 200 may allow the payment signal to be re-transmitted through another wireless transmission/reception device or another wireless device when the payment signal is not continuously transmitted to the server. When the wireless transmission/reception device 200 is installed in the same wireless communication coverage as the wireless transmission/reception device 200 and the unmanned device, the wireless transmission/reception device 200 may request to share data and transmit it to a server instead. In addition, the wireless transmission/reception device 200 may transmit and receive data (eg, a payment signal) by bidirectional communication with the server 110. Furthermore, the wireless transmission/reception device 200 may grasp the non-working time using the usage data of the wireless device, and automatically supply and cut off the power of the unmanned device based on the determined non-working time.

Specifically, it is a view for explaining a specific operation of the server with reference to FIG. 3. The server 110 may analyze information related to products and unmanned equipment sold by the unmanned equipment based on the interval of signals transmitted from the unmanned equipment or the wireless transmission/reception device 200 installed in the unmanned equipment, and the content of the message. Stored sales information can be stored in a database. For example, the server 110 may grasp price information, usage time information, and the number of unmanned equipment use based on the content of the message. At this time, data migration for time series analysis may be performed on the stored data. As an example, the server may analyze data related to unmanned equipment usage through analysis of a unit of seconds and minutes. The server 110 may transmit time-series analysis data between platforms using API (computer information access and control method).

Specifically, the server 110 analyzes information related to a product sold in connection with the unmanned equipment or unmanned equipment including price information, usage time information, and the number of unmanned equipment use based on the content of the message received from the wireless transmission/reception device. can do. The server 110 may analyze profit and loss calculations, such as sales management and cost management information related to each unmanned or unmanned equipment company based on the information transmitted from the wireless transmission/reception device 200. For example, the server 110 may generate management information including sales information and cost management information of the unmanned equipment as an analysis of the payment signal of the unmanned equipment. The server 110 may determine the currency information as the analysis is performed based on the payment signal including the money information input to the unmanned equipment classified through the separate wireless transmission/reception device 200 connected to the unmanned equipment. The server 110 includes sales of unmanned equipment, sales of unmanned equipment, usage time of unmanned equipment, usage of unmanned equipment/use of unmanned equipment, sales of unmanned equipment related companies/unmanned equipment, and unmanned equipment. Average sales of unmanned equipment in related companies, average usage of unmanned equipment/related unmanned equipment, usage status of unmanned equipment, investment cost and operating cost structure of unmanned equipment, sales information and cost management information including calculation of profit and loss of unmanned equipment Can be analyzed.

The server 110 may receive data from the unmanned equipment or the wireless transmission/reception device 200, and may provide an analysis result of performing analysis on the received data to the unmanned equipment 120 or the wireless transmission/reception device, and the web. Page 300. As the user logs in on the web page 300 based on the user's identification information, the user can check and manage the analysis information related to the unmanned device. For example, the server 110 may classify and store sales information of the unmanned equipment obtained by performing time series analysis based on a preset standard, and provide sales and use status of sales information classified based on a preset standard. . The server 110 may classify sales information on a regional, franchise, equipment type, and hourly basis. Accordingly, the server can analyze sales status and usage status by region. Alternatively, the server may analyze sales status and usage status by franchise. Alternatively, the server may analyze sales by equipment type, hourly, and usage status.

In addition, when an error occurs in relation to the amount of money input to the unmanned equipment, the server 110 may transmit a payment signal to the sales management web service by the administrator. The server 110 may determine whether the payment signal has an error or an abnormal operation through the web service 300 and notify the administrator as a notification. In addition, the server 110 may provide a web service for unmanned equipment sales management based on data received from the unmanned equipment 120 or the wireless transmission/reception device 200. For example, the server 110 may perform remote control of the unmanned device by monitoring whether there is an error in the payment signal or abnormal operation of the unmanned device. The server 110 detects a payment error of the unmanned device or an abnormal operation of the unmanned device through the device of the wireless transmission/reception device connected to the unmanned device, and notifies the administrator of the unmanned device or the wireless transmission/reception device to control the unmanned device. have. The wireless transmission/reception device 200 may control the wireless device to operate based on the analysis result from the server 110. In addition, for example, the server 100 can control the unmanned equipment by checking the opening and closing of the unmanned equipment through the wireless transmission/reception device, and can check the time remaining until the end of the use of the unmanned equipment. The server 110 may also check and change information of products provided with unmanned equipment. Furthermore, the server 110 may remotely control the functions provided by the unmanned equipment, and may provide the functions provided by the unmanned equipment remotely through a wireless transmission/reception device. In addition, the server 110 may designate a nonworking time of the unmanned equipment using usage data related to the unmanned equipment, and may transmit a signal for supplying and shutting off power to the unmanned equipment based on the designated nonworking time.

The server 110 may efficiently manage the unmanned device and the wireless transmission/reception device through a separate message server that manages messages transmitted from the unattended device or the wireless transmission/reception device. For example, when a plurality of wireless transmission/reception devices connect to the server, it is impossible to guarantee data monitored by the wireless transmission/reception device because the load applied to the message server or the server may increase. Accordingly, when the number of wireless transmission/reception devices accessible to the message server exceeds the allowable value, the server automatically establishes an additional message server, and when the number of wireless transmission/reception devices decreases, the server is stably monitored by reducing the number of openings. Allow data to be written to the server. At this time, the wireless transmission/reception device may access a new or existing message server through a host change function. Accordingly, the number of wireless transmission/reception devices connected to the message server/server can be adjusted to ensure data stability.

4 is a block diagram illustrating a configuration of a wireless transmission/reception device according to an embodiment, and FIG. 5 is a flowchart illustrating a monitoring method of the wireless transmission/reception device according to an embodiment.

The processor of the wireless transmission/reception device 200 may include a mirroring unit 410, a query unit 420, and a control unit 430. The components of the processor may be expressions of different functions performed by the processor according to a control command provided by the program code stored in the wireless transmission/reception device 200. The processor and the components of the processor may control the wireless transmission/reception device 200 to perform steps 510 to 530 included in the monitoring method of FIG. 5. At this time, the processor and the components of the processor may be implemented to execute instructions according to the code of the operating system included in the memory and the code of at least one program.

The processor may load program code stored in a file of a program for a monitoring method into memory. For example, when a program is executed in the wireless transmission/reception device 200, the processor may control the wireless transmission/reception device 200 to load a program code from a file of a program into a memory under control of an operating system. At this time, the processor and the mirroring unit 410, the querying unit 420, and the control unit 430 included in the processor each execute an instruction of a corresponding part of the program code loaded in the memory to perform the following steps 510 to 530 It may be different functional representations of the processor for execution.

In step 510, the mirroring unit 410 may be installed inside the unmanned device to mirror signals generated from the unmanned device. The mirroring unit 410 is connected between the MCU of the unmanned equipment and the payment unit to identify the payment signal generated as the amount of money is input from the unmanned equipment, and stores the identified payment signal and determines whether the identified payment signal is abnormal. You can.

In step 520, the query unit 420 may query whether the unmanned device is abnormal as the mirrored signal is transmitted to the server through wireless communication. The querying unit 420 may transmit information related to the obtained abnormal payment signal to the server by determining whether the identified payment signal or the identified payment signal is abnormal. The querying unit 420 periodically transmits the payment signal at predetermined intervals until the server receives it, and when the payment signal is not transmitted to the server, another unmanned device within the wireless communication coverage of the unmanned device or the wireless transmission/reception device or It may be determined whether another wireless transmission/reception device exists, and a payment signal may be transmitted to the server through another unmanned device or another wireless transmission/reception device by sharing a payment signal with another unmanned device or another wireless transmission/reception device.

In step 530, the control unit 430 may receive the analysis result analyzed in relation to the mirrored signal from the server and control the unmanned device. The control unit 430 determines whether an unmanned store or an unmanned device of the unmanned device associated with the mirrored signal is judged by the server, and each of the obtained parts is determined by determining whether the unmanned device has failed based on the number or interval of mirrored signals. It is possible to remotely control the unmanned equipment on the basis of the mirrored signal determined to be the failure of the unmanned equipment. The control unit 430 can automatically supply or cut off the power of the unmanned equipment by grasping the non-working time based on the usage amount of the unmanned equipment according to the analysis result analyzed by the server.

As the connection unit (not shown) is supplied with power to the unmanned equipment, whether or not the unmanned equipment is registered is identified based on the identification information of the unmanned equipment, and as the registration of the unmanned equipment is confirmed, it can be automatically connected to the set AP router when power is supplied. have.

6 is a block diagram illustrating a configuration of a server according to an embodiment, and FIG. 7 is a flowchart illustrating a method of controlling an unmanned device in a server according to an embodiment.

The processor of the server 110 may include a receiving unit 610, an analysis unit 620 and a providing unit 630. The components of the processor may be expressions of different functions performed by the processor according to a control command provided by the program code stored in the server 110. The processor and the components of the processor may control the server 110 to perform steps 710 to 730 included in the method for controlling the unmanned equipment of FIG. 7. At this time, the processor and the components of the processor may be implemented to execute instructions according to the code of the operating system included in the memory and the code of at least one program.

The processor may load program code stored in a file of a program for a monitoring method into memory. For example, when a program is executed on the server 110, the processor may control the server 110 to load program code from a file of the program into a memory under the control of the operating system. At this time, each of the processor and the receiving unit 610, the analyzing unit 620, and the providing unit 630 included in the processor executes the corresponding part of the program code loaded in the memory to execute the subsequent steps 710 to 730. It may be different functional representations of the processor for execution.

In step 710, the receiving unit 610 may receive a mirrored signal through wireless communication as a signal generated from the unmanned equipment is mirrored from a wireless transmission/reception device installed inside the unmanned equipment.

In step 720, the analysis unit 620 may perform a time series analysis of information related to unmanned equipment or products sold in connection with unmanned equipment based on the mirrored signal. The analysis unit 620 determines whether there is an abnormality in the identification information of the store or unmanned equipment related to the mirrored signal based on the mirrored signal received from the wireless transmission/reception device, and unattended based on the number or interval of the mirrored signal Each judgment result can be obtained by determining whether the equipment has failed. The analysis unit 620 may analyze information related to a product sold in connection with unmanned equipment or unmanned equipment including price information, usage time information, and the number of unmanned equipment use based on the content of the message received from the wireless transmission/reception device. have. The analysis unit 620 may classify and store the sales information of the unmanned equipment obtained by performing the time series analysis according to a preset criterion, and provide sales and usage status of the sales information classified based on the preset criterion.

In step 730, the providing unit 630 may provide an analysis result of performing time series analysis to a wireless transmission/reception device or a web service. The providing unit 630 may remotely control the unmanned device through a wireless transmission/reception device or a web service based on the determination result determined as a failure of the unmanned device.

The device described above may be implemented with hardware components, software components, and/or combinations of hardware components and software components. For example, the devices and components described in the embodiments include, for example, processors, controllers, arithmetic logic units (ALUs), digital signal processors (micro signal processors), microcomputers, field programmable gate arrays (FPGAs). , A programmable logic unit (PLU), microprocessor, or any other device capable of executing and responding to instructions, may be implemented using one or more general purpose computers or special purpose computers. The processing device may run an operating system (OS) and one or more software applications running on the operating system. In addition, the processing device may access, store, manipulate, process, and generate data in response to the execution of the software. For convenience of understanding, a processing device may be described as one being used, but a person having ordinary skill in the art, the processing device may include a plurality of processing elements and/or a plurality of types of processing elements. It can be seen that may include. For example, the processing device may include a plurality of processors or a processor and a controller. In addition, other processing configurations, such as parallel processors, are possible.

The software may include a computer program, code, instruction, or a combination of one or more of these, and configure the processing device to operate as desired or independently or collectively The processing unit can be commanded. Software and/or data may be interpreted by a processing device, or to provide instructions or data to a processing device, of any type of machine, component, physical device, virtual equipment, computer storage medium or device. Can be embodied in The software may be distributed over networked computer systems, and stored or executed in a distributed manner. Software and data may be stored in one or more computer-readable recording media.

The method according to the embodiment may be implemented in the form of program instructions that can be executed through various computer means and recorded on a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, or the like alone or in combination. The program instructions recorded on the medium may be specially designed and configured for the embodiments or may be known and usable by those skilled in computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs, DVDs, and magnetic media such as floptical disks. Includes hardware devices specifically configured to store and execute program instructions such as magneto-optical media, and ROM, RAM, flash memory, and the like. Examples of program instructions include high-level language code that can be executed by a computer using an interpreter, etc., as well as machine language codes produced by a compiler.

As described above, although the embodiments have been described by a limited embodiment and drawings, those skilled in the art can make various modifications and variations from the above description. For example, the described techniques are performed in a different order than the described method, and/or the components of the described system, structure, device, circuit, etc. are combined or combined in a different form from the described method, or other components Alternatively, even if substituted or substituted by equivalents, appropriate results can be achieved.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (14)

In the unmanned equipment monitoring method performed in the wireless transmission and reception device,
Mirroring a signal generated from the unmanned equipment is installed inside the unmanned equipment;
Querying whether the unmanned device is abnormal as the mirrored signal is transmitted to a server through wireless communication; And
Controlling the unmanned device by receiving an analysis result analyzed in relation to the mirrored signal from the server
Including,
The step of mirroring the signal generated from the unmanned equipment is installed inside the unmanned equipment,
It is connected between the MCU of the unmanned equipment and the payment unit to identify the payment signal generated as the amount of money is input from the unmanned equipment, and the money input to the unmanned equipment based on the mirrored payment signal by mirroring the identified payment signal. Step of distinguishing the currency information associated with, storing the identified payment signal and determining whether the identified payment signal is abnormal
Including,
The step of querying whether the unmanned device is abnormal as the mirrored signal is transmitted to a server through wireless communication is
Upon determining whether the identified payment signal or the identified payment signal is abnormal, information related to the acquired abnormal payment signal is transmitted to a server, and the mirrored signal is periodically received at predetermined intervals until the server receives it. Forward, and if the mirrored signal is not transmitted to the server, determine whether another unmanned device or another wireless transmission/reception device exists in the wireless communication coverage of the unmanned device or the wireless transmission/reception device, and the other unmanned device Or sharing the mirrored signal to the other wireless transmission/reception device so that the mirrored signal is transmitted to the server through the another unmanned device or the another wireless transmission/reception device.
Including,
Controlling the unmanned device by receiving an analysis result analyzed in relation to the mirrored signal from the server,
In response to querying whether the mirrored payment signal is abnormal, information related to payment including payment permission or disallowed is provided in response, and the same payment signal is continuously provided for a certain period of time based on the information related to payment received from the server. If it is attempted, it is determined that there is a payment error or risk of unmanned equipment, and payment is not allowed, and the server determines whether there is an abnormality in the store and unmanned equipment of the unmanned equipment related to the payment signal, and Receiving each of the obtained judgment result is transmitted as it is determined whether the failure of the unmanned equipment based on the interval, and remotely controlling the unmanned equipment based on the payment signal determined as the failure of the unmanned equipment
Unmanned equipment monitoring method comprising a. delete delete According to claim 1,
Controlling the unmanned device by receiving an analysis result analyzed in relation to the mirrored signal from the server,
Grasping the non-working time based on the usage amount of the unmanned equipment according to the analysis result analyzed by the server to automatically supply or cut off the power of the unmanned equipment
Unmanned equipment monitoring method comprising a. According to claim 1,
When power is supplied to the unmanned device, whether the unmanned device is registered is identified based on the identification information of the unmanned device, and when the unmanned device is registered, it is automatically connected to the AP router set when power is supplied.
Unmanned equipment monitoring method further comprising. In the method for controlling unmanned equipment performed on the server,
Receiving a mirrored signal through wireless communication as a signal generated from the unmanned device is mirrored from a wireless transmission/reception device installed inside the unmanned device;
Performing a time series analysis on information related to the unmanned equipment or a product sold in connection with the unmanned equipment based on the mirrored signal; And
Providing an analysis result of performing the time series analysis to a wireless transmission/reception device or a web service
Including,
The step of performing the time series analysis,
Based on the mirrored signal received from the wireless transmission/reception device, in response to a query of whether the mirrored payment signal is abnormal, information related to payment including payment permission or disallowed is provided in response, and stores associated with the mirrored signal , Determining whether there is an abnormality in the identification information of the unmanned equipment, and acquiring respective determination results by determining whether the unmanned equipment has failed based on the number or interval of the mirrored signals.
Including,
The step of providing the analysis result of performing the time series analysis to a wireless transmission/reception device or a web service,
Remotely controlling the unmanned device through a wireless transmission/reception device or a web service based on the determination result determined as the failure of the unmanned device
Including,
The wireless transmission and reception device,
The payment signal generated as the amount of money is input from the unmanned equipment is connected between the MCU and the payment unit of the unmanned equipment, and the money input to the unmanned equipment based on the mirrored payment signal as the identified payment signal is mirrored. It is obtained by determining whether the related payment information is divided, the identified payment signal is stored and whether the identified payment signal is abnormal, and the identified payment signal or the identified payment signal is abnormal. When the information related to the abnormal payment signal is transmitted to a server, the mirrored signal is periodically transmitted at predetermined intervals until the server receives it, and when the mirrored signal is not transmitted to the server, the unmanned device Alternatively, determine whether another unmanned device or another wireless transmission/reception device exists in the wireless communication coverage of the wireless transmission/reception device, and share the mirrored signal to the another unmanned device or the another wireless transmission/reception device to generate the another unattended The mirrored signal is transmitted to the server through the equipment or the other wireless transmission/reception device, and information related to payment including payment permission or disallowed is provided in response to querying whether the mirrored payment signal is abnormal, If the same payment signal is continuously attempted for a certain period of time based on the information related to the payment provided from the server, the server detects that there is a payment error or risk of unmanned equipment and disallows payment, and the server relates to the payment signal. It is determined whether the unmanned equipment has an abnormality with respect to the store and the unmanned equipment, and it is determined whether or not the unmanned equipment has failed based on the number or interval of the payment signal. Remotely controlling the unmanned equipment based on the payment signal determined as a failure
Unmanned equipment control method. delete The method of claim 6,
The step of performing the time series analysis,
Analyzing information related to unmanned equipment or products sold in connection with unmanned equipment including price information, usage time information, and the number of unmanned equipment use based on the content of the message received from the wireless transmission/reception device.
Unmanned equipment control method comprising a. The method of claim 6,
The step of performing the time series analysis,
Step of classifying and storing sales information of the unmanned equipment obtained by performing the time series analysis according to a preset standard, and providing sales and use status of sales information classified based on the preset standard.
Unmanned equipment control method comprising a. In the wireless transmission and reception device,
A mirror unit installed inside the unmanned equipment to mirror signals generated by the unmanned equipment;
A query unit querying whether the unmanned device is abnormal as the mirrored signal is transmitted to a server through wireless communication; And
A control unit that receives the analysis result analyzed in relation to the mirrored signal from the server and controls the unmanned device
Including,
The mirror unit,
It is connected between the MCU of the unmanned equipment and the payment unit to identify the payment signal generated as the amount of money is input from the unmanned equipment, and the money input to the unmanned equipment based on the mirrored payment signal by mirroring the identified payment signal And separating the currency information associated with, storing the identified payment signal and determining whether the identified payment signal is abnormal,
The query section,
Upon determining whether the identified payment signal or the identified payment signal is abnormal, information related to the acquired abnormal payment signal is transmitted to a server, and the mirrored signal is periodically received at predetermined intervals until the server receives it. Forward, and if the mirrored signal is not transmitted to the server, determine whether another unmanned device or another wireless transmission/reception device exists in the wireless communication coverage of the unmanned device or the wireless transmission/reception device, and the other unmanned device Or, by sharing the mirrored signal with the other wireless transmission/reception device, the mirrored signal is transmitted to the server through the another unmanned device or the another wireless transmission/reception device,
The control unit,
In response to querying whether the mirrored payment signal is abnormal, information related to payment including payment permission or disallowed is provided in response, and the same payment signal is continuously provided for a certain period of time based on the information related to payment received from the server. If it is attempted, it is determined that there is a payment error or risk of unmanned equipment, and payment is not allowed, and the server determines whether there is an abnormality in the store and unmanned equipment of the unmanned equipment related to the payment signal, and Upon receiving the determination of whether or not the unmanned equipment has failed based on the interval, each of the obtained determination results is received, and the unmanned equipment is remotely controlled based on the payment signal determined as the failure of the unmanned equipment.
Wireless transmission/reception device. delete delete The method of claim 10,
The control unit,
Based on the usage of the unmanned equipment according to the analysis result analyzed by the server, the closing time is grasped to automatically supply or cut off the power of the unmanned equipment.
Wireless transmission and reception device characterized in that. The method of claim 10,
As power is supplied to the unmanned device, whether the unmanned device is registered is identified based on the identification information of the unmanned device, and a connection unit automatically connected to the AP router set when power is supplied as the registration of the unmanned device is confirmed
Wireless transmission and reception device further comprising a.

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