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CN108494813B - Manufacturer remote equipment operation control system and method - Google Patents

Manufacturer remote equipment operation control system and method Download PDF

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Publication number
CN108494813B
CN108494813B CN201810070363.0A CN201810070363A CN108494813B CN 108494813 B CN108494813 B CN 108494813B CN 201810070363 A CN201810070363 A CN 201810070363A CN 108494813 B CN108494813 B CN 108494813B
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China
Prior art keywords
equipment
manufacturer
operation control
information
agent module
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Expired - Fee Related
Application number
CN201810070363.0A
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Chinese (zh)
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CN108494813A (en
Inventor
胡浩
何小梅
李冀
陈钢
蔡丹华
潘潇
王聪儿
汪晓波
谭黎睿
傅琛
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Hangzhou Zhongdian Anke Modern Technology Co ltd
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Hangzhou Guyi Network Technology Co ltd
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Priority to CN201810070363.0A priority Critical patent/CN108494813B/en
Publication of CN108494813A publication Critical patent/CN108494813A/en
Application granted granted Critical
Publication of CN108494813B publication Critical patent/CN108494813B/en
Expired - Fee Related legal-status Critical Current
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L67/00Network arrangements or protocols for supporting network services or applications
    • H04L67/01Protocols
    • H04L67/12Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
    • H04L67/125Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks involving control of end-device applications over a network
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L63/00Network architectures or network communication protocols for network security
    • H04L63/08Network architectures or network communication protocols for network security for authentication of entities
    • H04L63/0876Network architectures or network communication protocols for network security for authentication of entities based on the identity of the terminal or configuration, e.g. MAC address, hardware or software configuration or device fingerprint

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Computing Systems (AREA)
  • Signal Processing (AREA)
  • General Health & Medical Sciences (AREA)
  • Medical Informatics (AREA)
  • Health & Medical Sciences (AREA)
  • Power Engineering (AREA)
  • Computer Hardware Design (AREA)
  • Computer Security & Cryptography (AREA)
  • General Engineering & Computer Science (AREA)
  • Telephonic Communication Services (AREA)
  • Mobile Radio Communication Systems (AREA)
  • Selective Calling Equipment (AREA)

Abstract

The invention relates to a manufacturer remote equipment operation control system and a method, comprising a manufacturer remote equipment operation control server, a manufacturer user access terminal for accessing the manufacturer remote equipment operation control server, a wireless agent module and an operation control execution device which are attached to manufacturer equipment, and a mobile terminal bound by a user. The remote equipment operation control server of the manufacturer controls the operation of the remote equipment by utilizing the public wireless communication network service, further guarantees the normal performance of the commercial contract of the equipment manufacturer, and can provide services for different equipment manufacturers, provide the third party service for a plurality of equipment manufacturers and be more economic and efficient for the equipment manufacturers.

Description

Manufacturer remote equipment operation control system and method
Technical Field
The invention relates to the field of industrial control, in particular to a manufacturer remote equipment operation control system and a manufacturer remote equipment operation control method.
Background
Conventional remote control of industrial equipment is focused on equipment maintenance and software updates, typically accessing the system through remote dial-up or open IP ports, and generally whether the equipment can be accessed depends on the equipment operator. Once the device is delivered, the device manufacturer cannot control the operation of the delivered device. However, the seller may be at a disadvantage of impaired interests based on the complexity of business contracts and performances, and thus a method of remote facility operation control is required to secure the manufacturer's business interests, and it is based on the consideration that the present invention provides a method of implementing the manufacturer's remote facility operation control, which provides a service of the remote facility operation control to one or more facility manufacturers through a manufacturer's remote facility operation control server.
Disclosure of Invention
In order to solve the above problems, the present invention provides a manufacturer remote device operation control system.
A manufacturer remote device operation control system includes a manufacturer remote device operation control server, a manufacturer user access terminal for accessing the manufacturer remote device operation control server, a wireless agent module and an operation control execution device attached to a manufacturer device; the user accesses the manufacturer remote equipment operation control server through the manufacturer access terminal through the internet, and the manufacturer remote equipment operation control server sends encrypted authorization information and encrypted control instruction information to the wireless agent module attached to the remote equipment by using a public wireless communication network according to the instruction of the user; the wireless agent module receives and decrypts information from the equipment operation remote control server from the public wireless communication network and outputs a control signal to the operation control execution equipment, the wireless agent module reports the operation state of the equipment, decrypts an encryption authorization information encryption instruction in a wireless message, sends a signal for keeping or stopping the equipment operation to the operation control execution equipment according to the legality of the decrypted authorization information and the control instruction, and the operation control execution equipment controls target equipment; the system also comprises a mobile terminal bound by the user, and the mobile terminal provides secondary authentication for the user when the manufacturer remote equipment operation control server performs important operation on the user; the wireless agent module obtains a control instruction by utilizing the MSISDN of the mobile terminal bound by the user and a preset algorithm, outputs a control signal to the operation control execution equipment, and provides a secondary authentication function for the user when the user performs important operation.
Preferably, the encrypted authorization information is generated based on the hardware ID of the access terminal, the MSISDN of the mobile terminal bound by the user, the hardware ID of the target device, the hardware ID and MSISDN of the target wireless agent module, and a preset algorithm, and the encrypted control instruction information is generated based on the MSISDN and the control instruction of the mobile terminal bound by the user, and a preset algorithm.
Preferably, the manufacturer remote device operation control server provides user management functions, including providing user right management of different rights; authorized users can add, delete, modify information of manufacturer devices.
Preferably, the information that the authorized user can add, delete, and modify the manufacturer device includes: the hardware ID of the equipment, the hardware ID and MSISDN of the wireless agent module, the hardware ID of the access terminal, the MSISDN of the user binding mobile terminal, the maximum available time limit of the wireless agent module, the payment status and the like, the current running state (running and termination) of the equipment, when the available time of the wireless agent module is less than K days, the reminding recharging information is automatically sent out, and the K value can be configured as required.
Preferably, the wireless agent module has the capability of sensing the operation condition of the attached equipment, and the sensing mode is the change of the power-on condition, the temperature, the background noise level or the electromagnetic field intensity.
In addition, the invention also provides a manufacturer remote equipment operation control method.
A manufacturer remote equipment operation control method comprises the following steps:
the manufacturer user accesses the manufacturer remote equipment operation control server through the manufacturer access terminal to remotely control the equipment in operation, and the manufacturer remote equipment operation control server communicates with the wireless agent module attached to the equipment through a public wireless communication network;
the wireless agent module receives information from the manufacturer remote equipment operation control server, reports the equipment operation state, decrypts the encrypted authorization information and the encrypted instruction in the wireless message, and sends a signal for keeping or stopping the equipment operation to the relevant execution equipment according to the legality of the decrypted authorization information and the control instruction.
Wherein,
the manufacturer remote equipment operation control server is provided with a communication capability for providing a public wireless communication network, the manufacturer remote equipment operation control server adopts a circuit switching mode or a packet switching mode to communicate with a wireless agent module attached to manufacturer equipment, a message sent by the manufacturer remote equipment operation control server comprises encryption authorization information and encryption control command information, wherein the authorization information is generated by a preset algorithm through a target equipment hardware ID, an access terminal equipment hardware ID, a bound mobile terminal MSISDN, a wireless agent module hardware ID and an MSISDN on the target equipment and the like, and the encryption control command information is generated by a preset algorithm through an MSISDN of a user bound mobile terminal and a control instruction;
the wireless agent module has wireless communication capacity corresponding to the manufacturer remote equipment operation control server, when receiving the information of the manufacturer remote equipment operation control server, the wireless agent module analyzes the encrypted authorization information and the encrypted control instruction information sent by the remote control system by using the preset information of the target equipment hardware ID, the access terminal equipment hardware ID, the MSISDN of the mobile terminal bound by the user, the hardware ID of the wireless agent module and the MSISDN, and the like, and only when the received authorization information is legal information, the encrypted control instruction information is analyzed, and the operation control signal is sent to the operation control execution equipment according to the control instruction.
Preferably, the manufacturer remote equipment operation control server is provided with a manufacturer equipment management interface for managing different levels of user access rights; the authorized user can add, delete and modify the information of manufacturer equipment, including hardware ID of equipment, hardware ID of wireless agent module, MSISDN access terminal hardware ID and MSISDN of user binding mobile terminal, etc., the longest usable time limit of wireless agent module and payment state of equipment, and when the usable time of wireless agent module is less than K days and does not reach the longest usable time limit, the equipment can automatically send out the reminding recharging information, and the K value can be configured according to the requirement.
Preferably, the manufacturer remote device operation control server has a user secondary authentication function, and before important operations are performed, for example, before a remote control instruction is sent, random dynamic information needs to be sent to a mobile terminal bound in advance to perform secondary authentication, so that it is ensured that the operation instruction is issued by a person with authorization.
Preferably, the wireless agent module has the capability of sensing the operation condition of the attached device, and the sensing mode is the power-on condition, the temperature, the background noise level or the change of the electromagnetic field intensity.
The invention senses the running state of the equipment through a wireless agent module attached to the equipment of a manufacturer and sends the running state to a remote control server of the equipment of the manufacturer, the manufacturer can log in the remote control server of the equipment of the manufacturer through an access terminal according to the contract fulfillment condition, the remote control server of the equipment of the manufacturer sends encryption authorization information and a secret control instruction to the wireless agent module attached to the equipment by utilizing a public wireless communication network according to a user instruction, the wireless agent module analyzes the received encryption authorization information and the encryption control information, and when the decrypted information is legal information, the wireless agent module sends an equipment running control signal to the running control execution equipment according to the decrypted control instruction.
The invention has the beneficial effects that: the manufacturer remote equipment operation control server controls the operation of the remote equipment by using the public wireless communication network service, provides further guarantee for the normal performance of the business contract of the equipment manufacturer, and can provide services for different equipment manufacturers, provide the third party service for a plurality of equipment manufacturers, and is more economical and efficient for the equipment manufacturers.
Drawings
Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. Wherein like reference numerals are followed by like parts throughout the several views, the last letter designation thereof will be omitted when referring generally to these parts. In the drawings:
FIG. 1: a network schematic of a specific embodiment of the invention;
FIG. 2: the wireless agent module in the embodiment of the invention is composed schematically;
FIG. 3: in the embodiment of the invention, a schematic diagram is formed by a manufacturer remote equipment operation control server;
FIG. 4: the wireless agent module in the embodiment of the invention is a working flow chart.
Reference numerals:
100-manufacturer device
110-wireless agent module
111-processor
112-Wireless communication Module
113-information storage module
114-input-output module
115-device operation sensing module
120-operation control execution device
200-public wireless communication network
300-manufacturer remote equipment operation control server
310-processor
312-Wireless communication Module
314-information storage Module
316-device operation management Module
Detailed Description
The present invention provides applicable inventive concepts that can be embodied in a wide variety of specific contexts. The specific examples described in the following embodiments of the present invention are merely illustrative of specific embodiments of the present invention and do not limit the scope of the invention.
The invention is further described with reference to the following figures and detailed description of embodiments.
The embodiment of the invention relates to the access of a manufacturer access terminal to a manufacturer remote equipment operation control server, and the basic configuration of the operation control of the installed equipment, including but not limited to the addition, deletion, modification of a remote operation equipment hardware ID, the hardware ID and MSISDN of a wireless agent module attached to the equipment, the hardware ID of the manufacturer access terminal, the setting of secondary authentication of the MSISDN of a mobile terminal bound by a user and other information; the manufacturer remote equipment operation control server sends encrypted authorization information and encrypted control instruction information to a wireless agent module attached to the remote equipment by using a public wireless communication network according to a user instruction; the manufacturer remote device operation control server also provides management functions including, but not limited to, device operation status display, management of different user authorization levels, secondary authentication before important actions (such as sending remote control commands), wireless agent module recharge reminding, wireless agent module expiration closing, collection status display, etc.
In the specific embodiment of the invention, the power supply of the wireless agent module can be provided by the attached equipment, the initialization is carried out when the power is on and started, the wireless communication standby state is entered, the equipment running state signal is sent to the remote equipment running control server of the manufacturer, and the timer is reset; when receiving the encryption authorization information and the encryption control instruction information sent by the manufacturer remote equipment operation control server, carrying out decryption processing by utilizing a preset authorization access terminal equipment hardware ID, a user bound MSISDN, a wireless agent module own hardware ID and an MSISDN, an attached equipment hardware ID and a predetermined algorithm, and if the analyzed information is legal, the wireless agent module sends a signal to the operation control execution equipment to terminate or reply the operation of the equipment according to the control instruction.
Fig. 1 is a schematic network diagram of an embodiment of the present invention, in which a user accesses a manufacturer remote device operation control server 300 through a manufacturer access terminal 400 through the internet 600, when the user performs an important operation requiring a secondary authentication of a dynamic password using the bound mobile terminal 500, the manufacturer remote device operation control server 300 transmits encrypted authorization information and encrypted control instruction information to the wireless agent module 110 attached to the remote device 100 using the public wireless communication network 200 according to the user's instruction, wherein the encryption authority instruction is generated based on the hardware ID of the access terminal 400, the MSISDN of the user-bound mobile terminal 500, the hardware ID of the target device 100, the hardware ID and MSISDN of the target wireless agent module 110 and a preset algorithm, the encrypted control instruction information is generated for the MSISDN and the control instruction of the mobile terminal 500 bound by the user and a preset algorithm; the manufacturer remote device operation control server 300 provides user management functions including user right management providing different rights; the authorized user can add, delete and modify the information of the manufacturer device 100, including but not limited to the hardware ID of the device 100, the hardware ID and MSISDN of the wireless agent module 110, the hardware ID of the access terminal 400, the MSISDN of the user bound mobile terminal 500, the maximum time limit available for the wireless agent module 110, the payment status, etc., the current operating state (operation and termination) of the device 100, and when the available time of the wireless agent module 110 is less than K days, the reminding and recharging information is automatically sent out, and the value of K can be configured as required; the manufacturer remote device operation control server 300 provides a user secondary authentication function when the user performs an important operation, for example, before sending a remote control instruction, it needs to send dynamic random information to the mobile terminal 500 bound by the user in advance for secondary authentication, so as to ensure that the operation instruction is issued by a person with authorization.
The device 100, which is a target of remote control, attaches a wireless agent module 110 and a device execution device 120 to the device 100, the wireless agent module 110 receives encryption information from a device execution remote control server 300 from the public wireless communication network 200, and decrypts according to the preset hardware ID of the access terminal, the user bound mobile terminal ID (MSISDN or IMSI, etc.), the target device hardware ID, the target wireless agent module hardware ID and MSISDN, and the pre-agreed algorithm, once it is determined to be the legal authorization information, the wireless agent module 110 obtains a control instruction by using the bound MSISDN of the mobile terminal 500 and the preset algorithm, and outputs a control signal to the operation control execution device 120, and the operation control execution device 120 controls the target device 100, and the control method of the operation control execution device 120 includes, but is not limited to, cutting off the power supply, or cutting off the main line, and the like.
Fig. 2 is a schematic diagram illustrating the components of the wireless agent module 110 according to an embodiment, and the wireless agent module 110 includes a processor 111, a wireless communication module 112, an information storage module 113, an input/output module 114, and a device operation sensing module 115. The processor 111 is connected with all internal modules and is responsible for calculation and management of all devices; the wireless communication module 112 is responsible for communication with the public wireless communication network 200; the information storage module 113 stores all data and information required to be reserved; the device sensing module 115 is responsible for sensing the operating state of the device, and the sensing mode includes, but is not limited to, power-on condition, temperature, background noise level, electromagnetic field intensity change, and the like; the device operation sensing module 115 transmits the device operation state to the input/output module 114, and the input/output module 114 outputs a device operation control signal to the operation control execution device 120.
The operation control execution device 120 terminates or maintains the operation of the device, and the specific implementation method may be to interrupt/turn on the power supply or interrupt/turn on the control line.
Fig. 3 is a schematic diagram of a manufacturer remote device operation control server 300 according to an embodiment of the present invention, where the manufacturer remote device operation control server 300 includes a processor 310, a wireless communication module 312, a device operation management module 316, and an information storage module 314. The processor 310 is connected with all internal modules, and is responsible for calculation and management of all devices; the wireless communication module 312 is responsible for communicating with the wireless agent module 110 using the public wireless communication network 200; the information storage module 314 stores all data and information that need to be retained; the device operation management module 316 is responsible for user right management of all device manufacturers, configuration and control of the access terminal 400, the user-bound mobile terminal 500, the device 100, the wireless agent module 110, encryption of authorization and control information, and the like.
FIG. 4 is a flowchart illustrating the operation of the wireless agent module 110 according to an embodiment of the present invention, wherein the wireless agent module 110 is powered on and the power is supplied from the attached device in step S1; in step S2, the wireless agent module 110 enters initialization, the wireless agent module 110 starts up, and sends device start-up information to the manufacturer remote device operation control server 300, and the timer is reset; the wireless agent module 110 waits for the reception of a message from the public wireless communication network as by step S3; in step S4, receiving the message from the manufacturer remote device operation control server 300, decrypting the authorization information using the preset algorithm and the information such as the hardware ID of the authorized access terminal 400, the MSISDN of the user bound mobile terminal 500, the hardware ID of the device 100, and the hardware ID and MSISDN of the self wireless agent module 110; in step S5, determine whether the authorization information is legal; in step S6, the authorization information is illegal, and the discarded information returns to the receiving state; in step S7, the authorization information is legal, and the control command is decrypted by using the preset algorithm and the known information; in step S8, it is checked whether the control command is to terminate the operation; if the control command is not to terminate the operation as by step S9, a keep-operation signal is sent to the operation control execution device 120; in step S10, if the control command is to terminate operation, an operation termination signal is sent to the operation control execution device 120; if the step S11, determine whether the service time of the wireless agent module 110 exceeds the preset time limit, and if not, return to waiting for receiving the message; in step S12, if the wireless agent module 110 has reached the service deadline, the wireless agent module automatically shuts down.
It should be noted that the above-mentioned embodiments illustrate rather than limit the invention, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word "comprising" does not exclude the presence of elements or steps not listed in a claim. The word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. The usage of the words first, second and third, etcetera do not indicate any ordering. These words may be interpreted as names.

Claims (7)

1. A manufacturer remote device operation control system includes a manufacturer remote device operation control server, a manufacturer user access terminal for accessing the manufacturer remote device operation control server, a wireless agent module and an operation control execution device attached to a manufacturer device; the user accesses the manufacturer remote equipment operation control server through the manufacturer access terminal through the internet, and the manufacturer remote equipment operation control server sends encrypted authorization information and encrypted control instruction information to the wireless agent module attached to the remote equipment by using a public wireless communication network according to the instruction of the user; the wireless agent module receives and decrypts information from the equipment operation remote control server from the public wireless communication network and outputs a control signal to the operation control execution equipment, the wireless agent module reports the operation state of the equipment, decrypts the encrypted authorization information and the encrypted instruction in the wireless message, sends a signal for keeping or stopping the equipment operation to the operation control execution equipment according to the legality of the decrypted authorization information and the control instruction, and the operation control execution equipment controls the target equipment; the system also comprises a mobile terminal bound by the user, and the mobile terminal provides secondary authentication for the user when the manufacturer remote equipment operation control server performs important operation on the user; the wireless agent module obtains a control instruction by utilizing the MSISDN of the mobile terminal bound by the user and a preset algorithm, outputs a control signal to the operation control execution equipment, and provides a secondary authentication function for the user when the user performs important operation;
the manufacturer remote equipment operation control server is provided with a communication capability for providing a public wireless communication network, the manufacturer remote equipment operation control server adopts a circuit switching mode or a packet switching mode to communicate with a wireless agent module attached to manufacturer equipment, a message sent by the manufacturer remote equipment operation control server comprises encryption authorization information and encryption control command information, wherein the authorization information is generated by a target equipment hardware ID, an access terminal equipment hardware ID, a bound mobile terminal MSISDN, a wireless agent module hardware ID and an MSISDN on the target equipment through a preset algorithm, and the encryption control command information is generated by a user binding MSISDN of the mobile terminal and a control instruction through a preset algorithm;
the wireless agent module has wireless communication capacity corresponding to the manufacturer remote equipment operation control server, when receiving the information of the manufacturer remote equipment operation control server, the wireless agent module analyzes the encrypted authorization information and the encrypted control instruction information sent by the remote control system by using the preset target equipment hardware ID, the access terminal equipment hardware ID, the MSISDN of the mobile terminal bound by the user, the hardware ID of the wireless agent module and the MSISDN information, and only when the received authorization information is legal information, the encrypted control instruction information is analyzed, and an operation control signal is sent to the operation control execution equipment according to the control instruction;
the manufacturer remote equipment operation control server has a user secondary authentication function, and before important operation, random dynamic information needs to be sent to a mobile terminal bound in advance to carry out secondary authentication, so that an operation instruction is ensured to be issued by authorized personnel.
2. The system of claim 1, wherein: the manufacturer remote equipment operation control server provides user management functions, including user authority management for providing different authorities; authorized users can add, delete, modify information of manufacturer devices.
3. The system of claim 2, wherein: the authorized user can add, delete and modify the information of the manufacturer device, including: the hardware ID of the equipment, the hardware ID and the MSISDN of the wireless agent module, the hardware ID of the access terminal, the MSISDN of the user binding mobile terminal, the available maximum time limit and the payment condition of the wireless agent module, the current running state of the equipment, when the available time of the wireless agent module is less than K days, the reminding recharging information is automatically sent out, and the K value can be configured according to the requirement.
4. The system of claim 1, wherein: the wireless agent module has the capability of sensing the running state of attached equipment, and the sensing mode is the change of the power-on state, the temperature, the background noise level or the electromagnetic field intensity.
5. A manufacturer remote equipment operation control method comprises the following steps:
the manufacturer user accesses the manufacturer remote equipment operation control server through the manufacturer access terminal to remotely control the equipment in operation, and the manufacturer remote equipment operation control server communicates with the wireless agent module attached to the equipment through a public wireless communication network;
the wireless agent module receives information from a manufacturer remote equipment operation control server, reports the operation state of the equipment, decrypts the encrypted authorization information and the encrypted instruction in the wireless message, and sends a signal for keeping or stopping the operation of the equipment to related execution equipment according to the legality of the decrypted authorization information and the control instruction;
the manufacturer remote equipment operation control server is provided with a communication capability for providing a public wireless communication network, the manufacturer remote equipment operation control server adopts a circuit switching mode or a packet switching mode to communicate with a wireless agent module attached to manufacturer equipment, a message sent by the manufacturer remote equipment operation control server comprises encryption authorization information and encryption control command information, wherein the authorization information is generated by a target equipment hardware ID, an access terminal equipment hardware ID, a bound mobile terminal MSISDN, a wireless agent module hardware ID and an MSISDN on the target equipment through a preset algorithm, and the encryption control command information is generated by a user binding MSISDN of the mobile terminal and a control instruction through a preset algorithm;
the wireless agent module has wireless communication capacity corresponding to the manufacturer remote equipment operation control server, when receiving the information of the manufacturer remote equipment operation control server, the wireless agent module analyzes the encrypted authorization information and the encrypted control instruction information sent by the remote control system by using the preset target equipment hardware ID, the access terminal equipment hardware ID, the MSISDN of the mobile terminal bound by the user, the hardware ID of the wireless agent module and the MSISDN information, and only when the received authorization information is legal information, the encrypted control instruction information is analyzed, and an operation control signal is sent to the operation control execution equipment according to the control instruction;
the manufacturer remote equipment operation control server has a user secondary authentication function, and before important operation, random dynamic information needs to be sent to a mobile terminal bound in advance to carry out secondary authentication, so that an operation instruction is ensured to be issued by authorized personnel.
6. The method of claim 5, further comprising: the manufacturer remote equipment operation control server is provided with a manufacturer equipment management interface and is used for providing management of user access rights of different levels; the authorized user can add, delete and modify the information of manufacturer's equipment, including hardware ID of equipment, hardware ID of wireless agent module and MSISDN access terminal hardware ID and MSISDN of user bound mobile terminal, longest available time limit of wireless agent module, payment state, current running state of equipment, when the available time of wireless agent module is less than K days and not up to the longest available time limit, it can automatically send the reminding recharging information, the K value can be configured according to the need.
7. The method of claim 5, further comprising: the wireless agent module has the capability of sensing the running state of attached equipment, and the sensing mode is the change of the power-on state, the temperature, the background noise level or the electromagnetic field intensity.
CN201810070363.0A 2018-01-24 2018-01-24 Manufacturer remote equipment operation control system and method Expired - Fee Related CN108494813B (en)

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