KR20160005828A - Remote Managing System for Machine to Machine Device Using Near Field Communication - Google Patents

Abstract

The present invention relates to remote management system and method for machine to machine (M2M) devices in a near field wireless communications scheme, which perform an automatic control function of information on devices (an output level of a wireless signal, transmission intervals of the wireless signal, data information to be transmitted, a device state, a firmware update, etc.) for the M2M and Internet of things (IoT) based on the near field wireless communications scheme according to a request of a remote place by using a separate remote management device.

Description

Technical Field [0001] The present invention relates to a remote management system for a near-field wireless communication system,

The present invention relates to a device information (a wireless signal output level, a wireless signal transmission interval, a wireless signal transmission interval, etc.) for devices for M2M (Machine to Machine) and Internet of Things (IoT) A remote management system for the intelligent communication devices of the short-range wireless communication system that performs an automatic control function according to a remote request by using a separate remote management device, for example, data information to be transmitted, a device status, And a method thereof.

The world of M2M / IoT / IoE (Internet of Everything), etc. The underlying communication technologies to prepare for the coming of the Internet age are constantly being developed. Near-field wireless communication technologies between representative objects and objects related to this are known technologies such as Zigbee, Z-wave, NFC, Bluetooth and Wi-Fi. .

Among the above-mentioned near-field wireless communication technologies, in recent years, along with widespread use of smart phones, services utilizing the Bluetooth module installed in the smart phone have been increasing in various forms. For example, Apple's iBeacon technology and Qualcomm's gimbal technology are emerging as a service technology that works in conjunction with a smartphone in the form of a typical object device.

In the case of such near-field-based object communication devices, an independent type of unmanned device is installed and operated in accordance with a specific service purpose. For example, the signal intensity level for the wireless output power is adjusted in a form suitable for a specific space In a narrow space region, propagation is generated at low power, or conversely, in a wide space region, a relatively high signal intensity level is adjusted, so that signal propagation occurs at a high power.

Since a plurality of short range based object communication devices according to the purpose of installation in various environments are overlapped and used as independent forms, a demand for an operation method for managing a plurality of object communication devices is gradually increasing. In particular, the use of beacon devices, which are near-slave (or peripheral) devices in the service related to the location of the Indoor location, is installed by a plurality of devices according to the cell planing and positioning configuration, And operational measures are becoming more demanding.

The following constraints and problems arise in managing the slave devices independently operated according to the situation for the specific service purpose.

First, the administrator must grasp all the positions of the individual slave devices that are operating independently, and the slave devices that are thus identified must be individually accessed to confirm the presence or absence of operation and to manually set the settings of the slave devices as needed .

Second, since the administrator can not know the state of slave devices operating independently, it is necessary for the administrator to continuously check the status of the target devices (radio wave transmission, battery status, etc.).

Third, a lot of time and manpower resources are required to manage and maintain each slave device through the administrator.

Accordingly, there is a need for a method for solving the problem of the related art in managing a plurality of slave devices based on short-range communication as described above.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

By configuring a master device that can operate independently for management of a plurality of slave devices based on short-range communication, a function of configuring a slave device to directly control a specific slave device through a master device by a manager at a remote site enables real- The main purpose is to provide an effective management system and method by remote control as well as confirmation.

To this end, the object of the present invention is to configure a wire / wireless device unit in a device for managing intelligent communication, so that an external management server system via an Internet connection and the device for managing intelligent communication can be interconnected.

It is another object of the present invention to provide a method and system for supporting a variety of standardized interface methods in which a remote server can interconnect with each other by SMS, TCP / IP, HTTP, and RESTful according to a network support method of the wired / have.

It is a further object of the present invention to provide a system and method for configuring the object intelligence communication management apparatus to be interoperable with various sorts of object intelligent devices of this type by separately configuring an RF driving unit and an RF driving unit based on a near- .

It is a further object of the present invention to provide an object management system for an intelligent communication management system, which comprises a wired / wireless device, an RF driving unit, and an RF driving unit so that an external management server system can be directly controlled to a specific object intelligent device. For example, the control command transmitted from the management server corresponds to the radio signal output intensity level, the radio signal output transmission interval, and the radio signal transmission data information periodically transmitted by the object intelligent device.

It is still another object of the present invention to provide an object management system and a method for controlling the object intelligent communication management apparatus, which includes a wired / wireless device unit, an RF driving unit, and an RF driving unit, have. For example, the object intelligent communication management apparatus collects (real or passive scan) real-time information (Unique ID, MAC Address, Device Name, Device ID, etc.) transmitted by the surrounding object intelligent device (Slave) The intelligent communication management device collects the status information (battery, firmware version, etc.) of the corresponding intelligent device according to the data connection to the specific object intelligent device due to periodical or server request, and transmits the collected data to the management server It is possible to do.

It is still another object of the present invention to provide a device for managing intelligence of a target object, an RF driving unit, and an RF driving unit, wherein the external management server system checks the firmware version of the object intelligent device at a specific end, To change the firmware of the device. For example, the management server compares the Firmware version of the object intelligent device and can perform a firmware upgrade request to the object intelligent device at a specific end if necessary.

According to an aspect of the present invention,

An object intelligent communication management apparatus communicating with at least one object intelligent communication apparatus, comprising: a first short range wireless communication unit including a short range wireless module and a short range antenna; A second short-range wireless communication unit including a short-range wireless module using a method different from the short-range wireless module of the first short-range wireless communication unit and a short-range antenna; A processor unit configured to transmit and receive signals in cooperation with the first short range wireless communication unit and the second short range wireless communication unit, process information, and control the object intelligent communication management apparatus; A memory unit for storing information processed by the processor unit; And a power supply unit for applying power to the object intelligent communication management apparatus; Wherein the first short range wireless communication unit and the second short range wireless communication unit are configured to communicate with the one or more object intelligent communication devices through short range wireless communication.

Also, a wired / wireless communication unit including a wired / wireless communication module; And a connector unit connected to a distal end of the wired / wireless communication unit to form a communication terminal; And the wired / wireless communication unit is configured to communicate with the control server through a wired / wireless communication technology.

In addition, the first short range wireless communication unit and the second short range wireless communication unit may include different types of short range wireless communication modules.

Also, the short-range wireless communication module included in the first short-range wireless communication unit and the second short-range wireless communication unit may be Bluetooth, Zigbee, Z-wave or Wi-Fi And two different technologies selected from the short-range wireless communication method group including the second wireless communication method group.

The wired / wireless communication unit may include a mobile communication module (LTE, (W) CDMA, UMTS, EVDO, WiMAX, Wibro), a short-range wireless communication module (Wi-Fi or Bluetooth), or a wired communication module And one or more network modules selected from the group consisting of TCP / IP, UDP, HTTP, RESTful, or SMS.

In addition, the control server transmits a control command to the object intelligent communication device via a push method.

The object intelligent communication apparatus periodically broadcasts a message including an identifier, and the object intelligent communication management apparatus periodically scans a message sent from the object intelligent communication apparatus, Respectively.

The object intelligent communication apparatus periodically broadcasts a message including an identifier, the object intelligent communication management apparatus periodically scans a message sent from the object intelligent communication apparatus, And collects the identifier information of the specific object intelligent communication device and transmits it to the control server through the wired / wireless communication unit.

The object intelligent communication management apparatus receives update information including an identifier from the control server, searches the object intelligent communication apparatus corresponding to the identifier, and performs data connection, And transmits an update setting command.

The object intelligent communication management apparatus may further include: a device status information request corresponding to a specific object intelligent communication apparatus identifier from the control server, performing a data connection after searching the object intelligent communication apparatus corresponding to the identifier, And receives the status information of the object intelligent communication device and transmits the status information to the control server.

The object intelligent communication management apparatus may further include a control unit that receives firmware update information corresponding to a specific object intelligent communication apparatus identifier from the control server, searches for and connects the object intelligent communication apparatus corresponding to the identifier, And the object intelligent communication device is configured to perform the update through the firmware information received from the object intelligent communication management device.

The present invention having the above-

The object intelligent communication management apparatus can be configured as a wired / wireless device unit, thereby making it possible to interconnect the external management server system through the Internet connection and the object intelligent communication management apparatus.

Further, there is an effect that various standardized interface methods can be supported in the communication between the object intelligent communication management apparatus and the control server.

In addition, the object intelligent communication management apparatus includes a first short range wireless communication unit and a second short range wireless communication unit, so that the object intelligent communication management apparatus can interoperate with various sorts of object intelligent devices of this type.

In addition, since the object intelligent communication management apparatus relays the control server and the object intelligent communication apparatus, an external control server can collect the status of the object intelligent communication apparatus in real time and directly control it, It is effective to enable firmware update.

FIG. 1 is a block diagram illustrating a remote management system for a mobile intelligent communication device according to a preferred embodiment of the present invention. Referring to FIG.
2 is a block diagram of an apparatus for a remote management system for a near-field wireless communication system according to a preferred embodiment of the present invention.
3 shows a hierarchical custom structure of a plurality of object intelligent communicator devices and an object intelligent communication management device according to a preferred embodiment of the present invention.
FIG. 4 shows a step in which the object intelligence management device senses a signal when the object intelligence device periodically transmits a message.
FIG. 5 is a block diagram illustrating a configuration of the object intelligent communication management apparatus according to the present invention. The object intelligent communication management apparatus is connected to the Internet through a wired / wireless device unit provided therein. The object intelligent communication management apparatus is connected to an external control server through the wired / wireless device unit, (Update) with respect to the control information.
FIG. 6 is a block diagram illustrating a configuration of the object intelligent communication management apparatus according to the first embodiment of the present invention. The object intelligent communication management apparatus is connected to the Internet through a wired / wireless device unit, and is connected to an external control server through the wired / wireless device unit, Lt; RTI ID = 0.0 > (Update). ≪ / RTI >
FIG. 7 is a block diagram of the object intelligent communication management apparatus according to the first embodiment of the present invention. The object intelligent communication management apparatus is connected to the Internet via a wired / wireless device unit, and is connected to an external control server through the wired / wireless device unit, Lt; RTI ID = 0.0 > (Update). ≪ / RTI >

[0001] The present invention relates to a remote management system for an object-oriented communication device of a short-range wireless communication system, and more particularly to a remote management system for an object-oriented communication device (M2M, (Wireless signal output level, wireless signal transmission interval, data information to be transmitted, device status, firmware update, etc.) for the devices for the Internet of Things And is configured to perform an automatic control function according to a request.

In addition, the remote management system for the SMART communication devices of the short-range wireless communication system of the present invention comprises a master device that can operate independently for managing a plurality of slave devices based on short-distance communication, By configuring the functions so that specific slave devices can be controlled directly, it is possible to not only check the real time status of the slave devices but also to be able to remote control.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a block diagram showing a remote management system for a mobile intelligent communication device according to a preferred embodiment of the present invention. FIG. 2 is a block diagram illustrating a remote management system for a mobile intelligent communication device according to a preferred embodiment of the present invention. 1 illustrates an apparatus according to one embodiment of a remote management system for communication devices. 3 is a block diagram illustrating a hierarchical structure of a plurality of object intelligent communication devices and a plurality of object intelligent communication management apparatuses according to a preferred embodiment of the present invention.

As shown in the figure, the remote management system for the SMART communication devices of the present invention includes a first short range wireless communication unit 103, a second short range wireless communication unit 104, a processor unit 101, And an object intelligent communication management apparatus 100 including a wireless communication device 102, a wire / wireless transmission device 106, and a connector 107. [

The object intelligent communication management apparatus 100 includes a plurality of (N) other object intelligent communication management apparatuses including a unique identification number, i.e., an ID, and the first local wireless communication unit 103 or the second local wireless communication unit 104 As shown in Fig. In other words, the object intelligent communication management apparatus 100 is configured to configure a wired / wireless transmission device 106 so as to be interoperable with an external server system based on the Internet, and to interoperate with various near-field-based object intelligent communication devices The first local wireless communication unit 103 and the second local wireless communication unit 104 are configured to efficiently manage the object intelligent communication apparatus of this type.

The processor unit 101, which is a main processing unit included in the object-of-artificial intelligent communication management apparatus 100, includes a control module such as a micom known in the art. The processor unit 101 includes a ROM, And a memory unit 102 including a random access memory (RAM), and is configured to load and execute a program for driving the object of intelligent communication management apparatus 100 through the memory unit 102. The processor unit 101 further includes a peripheral interface (GPIO, I2C, I2S, SPI, SDIO, PCI, USB, MII, Data Bus, Address Bus, etc.) for connecting the memory unit 101 and external peripheral devices. It is desirable to support various peripheral connections.

The memory unit 102 includes known data storage means, that is, memory means. Preferably, when the memory module includes a large capacity memory module, the data bus and the address bus Address Bus) connection. When a low-capacity memory module is included, connection is possible through a serial interface memory method such as SPI.

In an embodiment of the present invention, when the peripheral interface of the processor unit 101 is an MII (Media Independent Interface) system, an interface for Ethernet connection may be supported. To the connector unit 107, -45 The Ethernet Transformer and RJ-45 connectors required for connection can be used to support wired-based Internet standard connection local area network (LAN).

The wired / wireless transmission device 106 is a configuration for a modular Internet connection and includes a known communication module such as a wireless WAN (WWAN), a mobile communication connection method such as LTE, CDMA, UMTS, WiMAX, And the communication module is connected to the USB port of the processor unit 101 through a mutual interlocking method such as a UART.

In addition, the wired / wireless transmission device 106 includes a communication module in the form of a WAN (Wireless Area Network), which is a short-range wireless communication connection method such as Wi-Fi and Bluetooth EDR, May be configured to be capable of internet communication by being connected to each other through the interworking method such as USB and UART of the processor unit 101. [

Also, the wired / wireless transmission device 106 includes a wired-based LAN (Local Area Network) communication module for modular Internet connection, and the communication module is connected to the processor unit 101 via a USB connection It can also be configured to allow internet communication through USB over Ethernet Adapter configuration.

Although the wired / wireless transmission device 106 has been described as including the well-known communication modules listed above for convenience of explanation in connection with the wired / wireless transmission device 106 of the present invention, any other known communication modules may be included It will be apparent to those skilled in the art.

In the preferred embodiment of the present invention, the connector unit 107 connected to the wire / wireless transmission device 106 is structured to support the RJ-45 interface standard. In the preferred embodiment of the present invention, the processor unit 101 is connected to the object intelligent device based on the external heterogeneous local communication through the first local area wireless communication unit 103 and the second local area wireless communication unit 104, .

The first short range wireless communication unit 103 may be a standard wireless communication unit such as a Wi-Fi, a Zigbee, an NFC, a Bluetooth, a Z-wave, Lt; RTI ID = 0.0 > chipset < / RTI > In general, such a chipset includes a central processing unit, an internal program storage ROM area, and a RAM area required for program execution. If necessary, an auxiliary storage space can be utilized in conjunction with an external serial memory. The detailed configuration of the present invention is not described in the description and the specification on the drawings, but the description is omitted since it is a known technology.

In another embodiment of the present invention, a radio block for supporting the short-range wireless communication method may be optimally included in the DSP (Digital Signal Processor) method. In other words, the wired / wireless transmission device 106 may be configured with a radio block for supporting various types of short-range wireless communication standards in accordance with its purpose of utilization. For example, if the radio block is configured as a chipset supporting the Bluetooth communication standard, the firmware configuration of the internal central processing unit and the program memory may be composed of application chipsets supporting the Bluetooth protocol. In another example, When configured as a chipset supporting the Wi-Fi communication standard, the firmware of the internal central processing unit and the program memory can be configured as application chipsets supporting the Wi-Fi protocol.

In addition to the components listed above, the object intelligent communication devices 200, 300, and 400, which are independently operated as shown in FIG. 3, are interworked with the object intelligent communication management device 100 according to the respective short- .

For example, when the object intelligent communication devices 200 and 300 use the Bluetooth-based short-range wireless communication method, the first short-range wireless communication unit 103 of the object- And a Bluetooth module supporting a wireless communication system, so that the object intelligent communication devices 200 and 300 and the object intelligent communication management device 100 can communicate with each other.

In this case, the SMT devices 200 and 300 serve as a slave for transmitting a radio signal, and the first short range wireless communication unit 103 serves as a master, And performs a scan operation. In this case, the lines 201 and 301 indicate a Bluetooth-based short-range wireless communication network.

When the object intelligent communication device 400 uses a Wi-Fi based short-range wireless communication method, the second short-range wireless communication unit 104 of the object intelligent communication device 100 transmits a Wi-Fi- And a Wi-Fi module that supports a short-range wireless communication method, so that the object intelligent communication device 400 and the object intelligent communication device 100 can communicate with each other.

In this case, the SIS 400 operates in a Wi-Fi AP (Access Point) mode to transmit a Wi-Fi signal (SSID), and the second short- 104 operates as a Wi-Fi STA (Station Mode) to enable mutual communication through detection of the surrounding Wi-Fi signal (SSID). In this case, the line 401 indicates a Wi-Fi-based short-range wireless communication network.

FIG. 4 shows a step in which the object intelligence management device senses a signal when the object intelligence device periodically transmits a message.

The object intelligent device 200 (ID 1) and / or the object intelligent device 400 (ID N) periodically broadcast its own signal (ID, Name) based on the near field wireless communication method, The management apparatus 100 transmits a signal (not shown) to the object intelligent device 200 (ID 1) and / or the object intelligent device 400 (ID N) through a near field wireless communication unit (103 or 104 in FIG. 3) (Scan).

For example, if the object intelligent device 200 (ID 1) periodically broadcasts its own signal (ID, Name) based on the Bluetooth short-range wireless communication method (S001, S002) The mobile terminal 100 detects a signal of the signal through the internal Bluetooth-based short-range wireless communication unit 103 of FIG. 3 (S003). Here, ID and Name mean a Bluetooth MAC address or a specific unique UUID, or a name of a defined type capable of distinguishing object devices in the form of a String.

If the object intelligent device 400 (ID N) periodically broadcasts its own signal (ID, Name) in the SSID format based on the Wi-Fi local wireless communication scheme, the object intelligent communication management apparatus 100 And a signal is detected through a Wi-Fi based near field wireless communication unit (104 in FIG. 3).

FIG. 5 is a block diagram illustrating a configuration of the object intelligent communication management apparatus according to the present invention. The object intelligent communication management apparatus is connected to the Internet through a wired / wireless device unit provided therein. The object intelligent communication management apparatus is connected to an external control server through the wired / wireless device unit, (Update) with respect to the control information.

First, in this embodiment, the control server 500 and the wired and wireless device unit (106 in FIG. 1) of the object of intelligent communication management apparatus 100 are connected to various connection methods (HTTP, TCP / , UDP, RESTful, SMS).

The wired / wireless device can perform an update request periodically to the control server through the various connection methods (S101). On the contrary, the control server transmits a request message to the wired / wireless device via a push method (S102).

When the request message is transmitted to the object intelligent communication management apparatus, the object intelligent communication management apparatus transmits the request signal to the object intelligent communication apparatus 200 based on the identifier (ID) of the object intelligent apparatus included in the request message (S103), and performs a data connection request through a data connection request (S105). When the data communication between the object intelligent communication device and the object intelligent communication management device is established in step S106, the object intelligent communication management device 100 transmits the information received from the control server 500 The transmission interval, the transmission data information, the status of the device, and the internal ROM firmware update of the object intelligence management device).

For example, as shown in FIG. 5, in a state in which a data connection is established, the object-of-knowledge intelligent communication management apparatus 100 transmits a level of a radio signal to be changed, a radio signal transmission interval, Information to be transmitted is transmitted through data communication (S107, S108). The object-to-be-intelligent communication device parses the received data and updates the internal storage area memory (S109 ), And the value of the internal operating variables is updated, thereby performing the setting data based on the changed setting data. Thereafter, the SUT 200 disconnects the SUT 100 (S110), and then transmits the changed message through the updating step S109 (S111).

Another example is shown in Fig.

The steps S201 to S205 shown in FIG. 6 correspond to the steps S101 to S106 of the embodiment of FIG. 5, and the steps S201 to S205 correspond to steps S101 to S106 of the embodiment of FIG. The present invention can be achieved through a certain modification within a range that can be easily implemented by the present invention.

6, the object intelligence communication management apparatus 100 according to the data connection requests device status information (firmware version, battery level, etc.) to the object intelligent communication apparatus 200 at a specific remote place (S206 (Step S207), the object intelligent communication apparatus 200 transmits the requested state information (S207, S208), and transmits the state information The state information set in the device can be read and the received information can be transmitted to the control server through the wired / wireless device unit (S209), so that the remote control server can grasp the state information of the final stage of the intelligent communication device in real time . In addition, while the status information is recognized by the control server in real time through the steps, the SIL communication device continuously or periodically transmits a message (S210).

Another example is shown in Fig.

The steps S301 to S306 shown in Fig. 7 correspond to the steps S101 to S106 of the embodiment of Fig. 5, and the steps S301 to S306 correspond to the steps S101 to S106 of the embodiment of Fig. The present invention can be achieved through a certain modification within a range that can be easily implemented by the present invention.

As shown in FIG. 7, the object intelligent communication management apparatus 100 according to the data connection downloads a firmware file to be newly changed to the specific object intelligent communication apparatus 200 at a remote place from the control server, It is possible to update the firmware to be changed to the object intelligent communication device at the end.

The SIL 100 periodically accesses the control server or receives a firmware request from the control server 500 in a pushing manner (S301), and then performs a process of downloading the latest firmware (S302) . Thereafter, the object intelligent communication management apparatus 100 transmits the firmware file data to be changed (S307 to S308) to the specific object intelligent communication apparatus at a remote place through data connection (S303 to S306). Then, the object-to-be-intelligent communication device 200 updates the firmware file to be changed in a specific storage space (S309). Then, the object intelligent communication device performs operation with the changed firmware by updating the downloaded firmware to be finally downloaded in the program code area.

The object intelligent communication device 200 then disconnects the object intelligent communication management device 100 at step S310 and transmits an update completion message to the control server 500. The object intelligent communication device 200 Transmits the modified message through the updating step S309 (S312).

The object intelligent communication management apparatus 100 of the present invention detects the firmware change request from the control server 500 through the above-described configuration, downloads the firmware file to be changed therefrom, and transmits the firmware to be changed to the specific end object By transmitting the firmware file again to the intelligent communication device, the intelligent communication device performs an arbitration function for the firmware update to be changed between the control server and the specific intelligent communication device.

While the present invention has been described in detail with respect to the preferred embodiments of the remote management system for the intelligent communication devices of the short-range wireless communication system of the present invention, it is only a specific example for the purpose of assisting the understanding of the present invention. The present invention is not limited thereto. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

100: Object intelligence communication management device
101:
102: memory unit
103: First short-range wireless communication unit
104: second short distance wireless communication unit
105:
106: Wired /
107:
108: Wired communication line
200: Object intelligence communication device
300: intelligent communication device
400: Object intelligence communication device
500: control server
201, 301, 401: short-range wireless communication line

Claims (11)

An object intelligent communication management apparatus communicating with at least one object intelligent communication apparatus,
A first short range wireless communication unit including a short range wireless module and a short range antenna;
A second short-range wireless communication unit including a short-range wireless module using a method different from the short-range wireless module of the first short-range wireless communication unit and a short-range antenna;
A processor unit configured to transmit and receive signals in cooperation with the first short range wireless communication unit and the second short range wireless communication unit, process information, and control the object intelligent communication management apparatus;
A memory unit for storing information processed by the processor unit; And
A power supply unit for applying power to the object intelligent communication management apparatus;
Lt; / RTI >
Wherein the first short range wireless communication unit and the second short range wireless communication unit are configured to communicate with the one or more object intelligent communication devices through short range wireless communication.
The method according to claim 1,
A wired / wireless communication unit including a wired / wireless communication module; And
A connector unit connected to a distal end of the wired / wireless communication unit to form a communication terminal;
Further comprising:
Wherein the wired / wireless communication unit communicates with the control server through wired / wireless communication technology.
The method according to claim 1,
Wherein the first short range wireless communication unit and the second short range wireless communication unit include different types of short range wireless communication modules.
3. The method of claim 2,
The short-range wireless communication module included in the first short-range wireless communication unit and the second short-range wireless communication unit may be a short-range wireless communication module including a Bluetooth, a Zigbee, a Z-wave or a Wi- Wherein the remote management system includes two different technologies selected from the wireless communication method groups.
3. The method of claim 2,
The wired /
(LAN, RS-232) selected from the group consisting of a mobile communication module (LTE, (W) CDMA, UMTS, EVDO, WiMAX, Wibro), a short range wireless communication module Module,
Wherein the control server is interconnected through at least one network method selected from the group consisting of TCP / IP, UDP, HTTP, RESTful or SMS.
3. The method of claim 2,
Wherein the control server sends a control command to the object intelligent communication device via a push method.
3. The method of claim 2,
The object intelligent communication device periodically broadcasts a message including an identifier,
Wherein the object intelligent communication management apparatus is connected to the object intelligent communication apparatus by periodically scanning a message transmitted from the object intelligent communication apparatus. system.
3. The method of claim 2,
The object intelligent communication device periodically broadcasts a message including an identifier,
The object intelligent communication management apparatus periodically scans a message transmitted from the object intelligent communication apparatus, collects identifier information of the specific object intelligent communication apparatus included in the message, and transmits the identifier to the control server through the wired / Wherein the remote management system comprises a remote management system for the object intelligent communication devices of the short range wireless communication system.
3. The method of claim 2,
The object intelligent communication management apparatus comprises:
Receiving update information including an identifier from the control server,
Performing a data connection after searching the object intelligent communication device corresponding to the identifier,
And transmits the update setting command, which is requested and received, from the control server to the remote control system.
3. The method of claim 2,
The object intelligent communication management apparatus comprises:
Receiving a device state information request corresponding to a specific object intelligent communication device identifier from the control server,
Performs a data connection after searching the object intelligent communication device corresponding to the identifier,
And transmits the status information of the object intelligent communication device to the control server by receiving the status information of the object intelligent communication device.
3. The method of claim 2,
The object intelligent communication management apparatus comprises:
Receiving firmware update information corresponding to a specific object intelligent communication device identifier from the control server,
Searching and connecting the object intelligent communication device corresponding to the identifier to transmit the firmware update information to the object intelligent communication device,
The object intelligent communication device comprises:
And performing update through the firmware information received from the object intelligent communication management apparatus. The remote management system for the object intelligent communication devices of the short-range wireless communication system.

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