CN112422634B - Internet-based cross-network-segment distributed scheduling method and system - Google Patents

Abstract

The invention provides a cross-network-segment distributed scheduling method and system based on the Internet, and relates to the field of operating systems. The internet-based cross-network-segment distributed scheduling method comprises the following steps: the remote equipment initiates registration to generate registration information, and the remote distributed scheduling center performs identity verification on the registration information; creating a remote scheduling group, wherein devices in the group are scheduled through distributed scheduling capability; the distributed scheduling center of the cloud computing end can be established based on the Internet, and the distributed scheduling tasks are jointly completed through communication between the distributed scheduling center and each device provided with the remote distributed scheduling agent. In addition, the invention also provides a cross-network-segment distributed scheduling system based on the Internet, which comprises the following steps: the system comprises a registration module, a creation module, a group joining module, a remote distributed scheduling module and a remote distributed scheduling agent module.

Description

Internet-based cross-network-segment distributed scheduling method and system

Technical Field

The invention relates to the field of operating systems, in particular to a cross-network-segment distributed scheduling method and system based on the Internet.

Background

Hong Mongolian OS officially releases on the 09 th and 10 th 2020, and currently supports distributed task scheduling. Based on the technical characteristics of distributed soft buses, distributed data management and distributed Profile, a unified distributed service management (discovery, synchronization, registration and call) mechanism is constructed, remote starting, remote call, remote connection and migration operation of the cross-equipment application are supported, and proper equipment operation distributed tasks can be selected according to the capacities, positions, service operation states and resource use conditions of different equipment and habits and intentions of users. Application migration in the following figures is an example, briefly demonstrating the distributed task scheduling capability.

However, current hong-mons only support distributed scheduling capability within the same local area network. If distributed capability can be provided across a three-tier network, the hong-mons OS would be provided with the ability to schedule distributed within the wide area network, bringing greater imagination space and market value.

Disclosure of Invention

The invention aims to provide a cross-network-segment distributed scheduling method based on the Internet, which can establish a distributed scheduling center of a cloud computing end based on the Internet, and can jointly complete distributed scheduling tasks by communicating with devices provided with remote distributed scheduling agent modules through the scheduling center.

Another object of the present invention is to provide an internet-based cross-segment distributed scheduling system, which is capable of running an internet-based cross-segment distributed scheduling method.

Embodiments of the present invention are implemented as follows:

in a first aspect, an embodiment of the present application provides an internet-based cross-network segment distributed scheduling method, which includes that a remote device initiates registration to generate registration information, and a remote distributed scheduling center performs identity verification on the registration information; creating a remote scheduling group, wherein devices in the group are scheduled through distributed scheduling capability; the remote distributed scheduling center receives the remote scheduling group joining of the hong Monte devices, each remote device in the group forms a remote scheduling device list, and the remote distributed scheduling module performs distributed scheduling on the remote scheduling device list; the remote distributed scheduling agent module intercepts all or part of key messages of the OS and synchronously transmits related messages to the remote distributed scheduling center; or the remote distributed scheduling agent module interacts with the distributed scheduling of the OS and the distributed soft bus message, and the self-defined message format interacts with the remote distributed scheduling module.

In some embodiments of the present invention, the remote device initiating registration to generate registration information, and the remote distributed scheduling center performing authentication on the registration information includes: the registration function of the hong Monte device is supported and identity verification is performed, and only legal users can use the remote distributed scheduling capability.

In some embodiments of the present invention, creating the remote scheduling group, the devices within the group scheduling by the distributed scheduling capability includes: a remote scheduling group is created, and the devices in the group are visible to each other after the remote scheduling function is started, and scheduling is performed through the distributed scheduling capability.

In some embodiments of the present invention, the remote distributed scheduling module further includes a remote distributed scheduling center, where the remote distributed scheduling module has a function of creating the group, where the group is applied for creation by the remote distributed scheduling agent module of the first device, and other devices join the group, and join by the remote distributed scheduling agent module; and the remote distributed scheduling module and the plurality of remote distributed scheduling agent modules are combined with the service flow to complete the distributed scheduling of the cross-network segment.

In some embodiments of the present invention, the remote distributed scheduling center receives a remote scheduling group join of the hong-and-Monte device, and forming the remote scheduling device list by each remote device in the group includes: receiving the remote scheduling group joining of the hong Monte device, and operating to carry a group ID; the list of devices within the group is a list of objects that will distribute the distributed scheduling message.

In some embodiments of the present invention, the foregoing further includes forming a remote scheduling device list by each remote device in the group after joining the remote scheduling group; the remote scheduling device list forms a list of objects for distributed scheduling message distribution.

In some embodiments of the present invention, the remote distributed scheduling agent module intercepts all or part of the key message of the OS, and synchronously sends the relevant message to the remote distributed scheduling center, which includes: the remote distributed dispatching agent module intercepts the equipment discovery, equipment synchronization and equipment registration equipment interaction information of the local area network of the original distributed dispatching and distributed soft bus of the OS, and comprises the steps of intercepting all or part of key information, combining the interaction flow with the remote dispatching center, synchronously transmitting the related information to the remote distributed dispatching center, and realizing the closed loop of the service flow and the control flow of the whole service call.

In some embodiments of the invention, the foregoing further comprises: the remote distributed dispatching center forwards the received service discovery, service synchronization, service registration and service call information sent by the hong Monte devices, the forwarding purpose is a remote dispatching device list in the group, and the specific forwarding scheme adopts an intranet penetration scheme or other self-selection schemes which are mature in industry.

In a second aspect, an embodiment of the present application provides an internet-based cross-segment distributed scheduling system, which includes a registration module, configured to initiate registration by a remote device to generate registration information, where the remote distributed scheduling center performs identity verification on the registration information; the creation module is used for creating a remote scheduling group, and the devices in the group are scheduled through the distributed scheduling capability; the group joining module is used for receiving the remote scheduling group joining of the hong and Monte devices by the remote distributed scheduling center, and each remote device in the group forms a remote scheduling device list; the remote distributed scheduling module is used for registering services, discovering services, authenticating services, calling services, reserving services, synchronizing services, exiting services and ending services, and realizing the distributed scheduling of the cross-network segments by matching with the remote distributed scheduling agent module; the remote distributed scheduling agent module and the remote distributed scheduling module cooperate to intercept all or part of key messages of the OS distributed scheduling layer and synchronously send related messages to the remote distributed scheduling center.

In some embodiments of the invention, the above includes at least one memory for storing computer instructions; at least one processor in communication with the memory, wherein the at least one processor, when executing the computer instructions, causes the system to perform: the system comprises a registration module, a creation module, a group joining module, a remote distributed scheduling module and a remote distributed scheduling agent module.

Compared with the prior art, the embodiment of the invention has at least the following advantages or beneficial effects:

1. the method and the system provide the distributed capability for providing the cross-three-layer network, so that the hong Mongolian OS has the capability of distributed scheduling in the wide area network, the user experience is improved, and larger imagination space and market value are brought.

2. By adopting a scheduling scheme based on the transfer of a remote distributed scheduling center, a scheduling mechanism of the whole network is established through the remote scheduling center, and the limitation that the OS is only scheduled in a local area network or a local area network is broken.

3. On the premise of not changing the whole architecture of the system, the distributed scheduling capability can be added through a small amount of newly added module adaptation, and the distributed scheduling capability of each device is the same as the local area network and the cross-layer network device, so that the consistency of the design thought of the system and the consistency of user experience are maintained.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings will be obtained according to these drawings without inventive effort to a person of ordinary skill in the art.

Fig. 1 is a schematic step diagram of a cross-network-segment distributed scheduling method based on the internet according to an embodiment of the present invention;

fig. 2 is a detailed step schematic diagram of a cross-network-segment distributed scheduling method based on the internet according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a cross-network-segment distributed scheduling system module based on the internet according to an embodiment of the present invention;

fig. 4 is a detailed module schematic diagram of a cross-network-segment distributed scheduling system based on the internet according to an embodiment of the present invention.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, are arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

It is noted that relational terms such as first and second, and the like, are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.

Some embodiments of the present application are described in detail below with reference to the accompanying drawings. The following embodiments and features of the embodiments are combined with each other without conflict.

Example 1

Referring to fig. 1, fig. 1 is a schematic step diagram of a cross-network-segment distributed scheduling method based on the internet, which is provided in an embodiment of the present invention, and is as follows:

step S100, the remote equipment initiates registration to generate registration information, and the remote distributed scheduling center performs identity verification on the registration information;

in some embodiments, the remote distributed scheduling center module supports the registration function of the hong Monte device, the remote device initiates registration, the remote distributed scheduling center module performs identity verification, and only legal users can use the remote distributed scheduling capability;

step S110, a remote scheduling group is created, and devices in the group are scheduled through distributed scheduling capability;

in some embodiments, a remotely scheduled group is created in which devices are visible to each other, i.e., scheduled by a distributed scheduling capability, after the remote scheduling function is turned on. The remote distributed scheduling agent module has the function of creating the group, and the group is also created by the remote distributed scheduling center module.

Step S120, the remote distributed scheduling center receives the remote scheduling group joining of the hong Monte devices, each remote device in the group forms a remote scheduling device list, and the remote distributed scheduling module performs distributed scheduling on the remote scheduling device list;

in some embodiments, the hong terminal performs remote dispatch group joining. The remote distributed scheduling center module receives the remote scheduling group joining of the hong Monte devices, and each remote device in the group forms a remote scheduling device list; the remote scheduling device list will form a list of objects for distributed scheduling message distribution.

Step S130, the remote distributed scheduling agent module intercepts all or part of key messages of the OS and synchronously transmits the related messages to the remote distributed scheduling center; or a remote distributed scheduling agent module which interacts with the distributed scheduling of the OS and the distributed soft bus message, and the user-defined message format interacts with a remote distributed scheduling module;

in some embodiments, the remote distributed scheduling agent module intercepts service discovery, service synchronization, service registration, service invocation messages of the local area network of the OS original distributed scheduling, distributed soft bus, including intercepting all or part of key messages, and synchronously sends the relevant messages to the remote distributed scheduling center.

And step S140, forwarding the received intercepted all or part of the key messages and forwarding a remote scheduling device list in the group.

In some embodiments, the remote distributed scheduling center forwards the received service discovery, service synchronization, service registration, service invocation messages sent by the hong-and-Monte devices, for the purpose of forwarding the list of remote scheduling devices within the group. The specific forwarding scheme adopts an intranet penetration scheme or other self-selection schemes which are mature in the industry.

The remote distributed dispatching agent module intercepts the OS message and intercepts the OS message by using a linux HOOK mechanism, or performs a small amount of expansion on the original distributed dispatching and distributed soft bus capability, and directly copies and forwards the relevant message to the remote distributed dispatching agent module.

The remote dispatching group supports a multi-group function, the remote distributed dispatching center supports the creation of a plurality of groups, defaults the effective groups, and sets which group is effective;

devices in the remote scheduling group are set to inhibit distributed scheduling without exiting the group; the remote distributed dispatching center needs to support the dispatching function of prohibiting some devices in the group;

the remote distributed scheduling agent module is a logic module, and the functions of the remote distributed scheduling agent module are integrated into other modules, including but not limited to the built-in service discovery, service synchronization, service registration and service calling modules;

the communication protocol between the remote distributed scheduling agent module and the remote distributed scheduling center adopts an RPC industry mature scheme or other self-research schemes, and optionally has serialization capability and/or compression capability.

Example 2

Referring to fig. 2, fig. 2 is a detailed step schematic diagram of a cross-network-segment distributed scheduling method based on the internet according to an embodiment of the present invention, which is as follows:

step S200, the remote equipment initiates registration to generate registration information, and the remote distributed scheduling center performs identity verification on the registration information;

step S210, supporting the registration function of the hong Monte device and performing identity verification, wherein only legal users can use the remote distributed scheduling capability;

step S220, a remote scheduling group is created, and devices in the group are scheduled through distributed scheduling capability;

step S230, a remote scheduling group is created, devices in the group are visible to each other after the remote scheduling function is started, and scheduling is performed through the distributed scheduling capability;

step S240, the remote distributed scheduling center has the function of creating the group, and the group is created by the remote distributed scheduling agent module;

step S250, the remote distributed scheduling center receives the remote scheduling group joining of the hong Monte devices, and each remote device in the group forms a remote scheduling device list;

step S260, receiving the remote dispatch group joining of the hong Monte device, and operating to carry the group ID;

step S270, the device list in the group distributes the distributed scheduling message to the object list;

step S280, after joining the remote dispatching group, each remote device in the group forms a remote dispatching device list;

step S290, the remote scheduling device list forms an object list distributed by the distributed scheduling message;

step S300, the remote distributed scheduling agent module intercepts all or part of key messages of the OS and synchronously transmits the related messages to the remote distributed scheduling center;

step S310, the remote distributed dispatching agent module intercepts the original distributed dispatching of the OS, the equipment discovery of the local area network of the distributed soft bus, the equipment synchronization and the equipment registration equipment call equipment interaction information, and comprises intercepting all or part of key information, and synchronously transmitting the relevant information to the remote distributed dispatching center by combining the interaction flow with the remote distributed dispatching center, so as to realize the closed loop of the service flow and the control flow of the whole service call;

in step S320, the remote distributed scheduling center forwards the service discovery, service synchronization, service registration, and service call message sent by the received hong Monte devices, and forwards the service discovery, service synchronization, service registration, and service call message to the remote scheduling device list in the group. The specific forwarding scheme adopts an intranet penetration scheme or other self-selection schemes which are mature in the industry;

step S330, forwarding the received intercepted all or part of the key messages and forwarding the remote scheduling device list in the group.

In some embodiments, the hong device a networking devices are a cell phone A, TV, a wearable device, a camera; the devices of the HongMong device B are a mobile phone B and a vehicle-mounted terminal.

The hong Mongolian device A sends a device registration request to a remote distributed dispatching center, the remote distributed dispatching center confirms the registration of the device A, the hong Mongolian device B also sends a device registration request to the remote distributed dispatching center, and the remote distributed dispatching center confirms the registration of the device B.

The hong Mongolian device A sends a request for creating a remote dispatching group to a remote distributed dispatching center, and the remote distributed dispatching center confirms the creation of the remote dispatching group and carries the ID of the group; hong-and-Monte device A requests to the remote distributed dispatch center to join a remote dispatch group (ID, e.g., all devices) optionally: all devices and part of devices connected by hong-Monte device A, the remote distributed scheduling center confirms that the joining of hong-Monte device A to the remote scheduling group (ID) is successful.

The hong Mongolian device B requests a remote distributed dispatching center to join in a remote dispatching group, and the remote distributed dispatching center confirms the creation of the remote dispatching group and carries the ID of the group; hong-and-Monte device B requests to the remote distributed dispatch center to join a remote dispatch group (ID, e.g., all devices) optionally: all devices and part of devices connected by hong-Monte device A, the remote distributed scheduling center confirms that the joining of remote scheduling group (ID) of hong-Monte device B is successful.

The HongMonte device A sends a distributed scheduling request message to a remote distributed scheduling center for scheduling the capacity of the HongMonte device B, the remote distributed scheduling center forwards the request instruction of the HongMonte device A to the HongMonte device B, and the HongMonte device confirms the distributed scheduling confirmation message, and the confirmation result is that the scheduling is successful or the scheduling is failed. The remote distributed dispatching center forwards the confirmation result of the hong Monte device B to the hong Monte device A. For example, when scheduling is successful, the hong device a uses the capabilities of the hong device B, such as watching a video picture in a vehicle-mounted terminal on a TV.

The hong Monte device B sends an instruction for requesting to exit the remote scheduling group (ID, such as a vehicle-mounted terminal) to a remote distributed scheduling center, and the instruction can select: all devices and part of devices connected to hong Meng device B. The remote distributed dispatching center judges whether the call is in progress, if so, the remote distributed dispatching center sends an in-call service exit instruction (ID (e.g. a vehicle-mounted terminal) to the hong Monte device A, and the hong Monte device A sends an in-call service exit confirmation (ID (e.g. a vehicle-mounted terminal) to the remote distributed dispatching center; if not, the remote distributed scheduling center sends an acknowledgment of exiting the remote scheduling group (ID, e.g., vehicle terminal) to the hong Monte device B. Scheduling capability exits, such as: the function of viewing the video picture in the in-vehicle terminal at the TV exits.

Updating the remote scheduling device list of group ID (hong Meng device B connected device: vehicle terminal exit) if requested: all devices connected by hong-Monte device B exit, and all connected devices related to hong-Monte device B are deleted from the remote scheduling device list.

When all of the hong devices a, meng Shebei B and Meng Shebei C are successfully registered, the hong device a sends an instruction of a service registration request (group ID, service name such as family party video sharing) to a remote distributed scheduling center, the remote distributed scheduling center creates a service (device a, sub-device (such as camera, service name, service ID)) of the group ID, the remote distributed scheduling center sends an instruction of successful service registration (group ID, service ID) to the hong device a, then sends an instruction of an available service broadcast message (group ID, service name) to the hong device B and the hong device C, respectively, the hong Meng Shebei group B and the hong Meng Shebei group C update discovery service lists (hong device a, sub-device such as camera, service name, service ID) respectively, the remote distributed scheduling center confirms the service call, and then sends an instruction of a service call request (group ID, service ID) to the remote distributed scheduling center.

Updating the service call list (service provider such as hong Menu device A, service ID, service caller such as hong Menu device B) call successfully, use the services of device A such as: and viewing the real-time family gathering video.

The scene of hong Meng Shebei group C is: at present, people cannot see the current situation, and want to see the current situation at 9:00. Then sending a service invocation reservation request (group ID, service ID) to the remote distributed dispatch center, which updates the service invocation list (service provider such as device a, service ID, service caller such as device C, reservation time) and then sends a service synchronization notification (group ID, service ID, synchronization type such as hold video content) to hong-mo device a; a service synchronization notification (group ID, service ID, synchronization type) is sent to the hong-and-Monte device group B. The remote distributed scheduling center stores the service content.

Hong Meng Shebei group B sends a service exit request (group ID, service ID,) to the remote distributed dispatch center, which sends a service exit acknowledgement (group ID, service ID,) to hong device group B. The remote distributed dispatching center updates the service call list and deletes the call of the hong Monte device B.

The remote distributed scheduling center transmits a service synchronization notification (group ID, service ID, synchronization type, e.g., no one watching) to the hong device a, and the hong device a transmits a service end request (group ID, service ID) to the remote distributed scheduling center. The remote distributed dispatching center updates the service call list and deletes the real-time service information. The remote distributed scheduling center transmits an end-of-service acknowledgement (group ID, service ID) to the hong-and-Monte device A.

The remote distributed scheduling center scene is as follows: at present, people cannot see the current situation, and want to see the current situation at 9:00. Then a service invocation reservation status notification (group ID, service status such as: reserved time up) is sent to the hong device group C, and then the hong device group C sends a service invocation reservation status confirmation (group ID, service status such as: invoke) to the remote distributed dispatch center. At this time, the call is successful, and the service of the device a is used, for example: and viewing and saving the family party video. Hong Meng Shebei group C sends a service exit request (group ID, service ID) to the remote distributed dispatch center. The remote distributed dispatching center updates the service call list and deletes the service information. The remote distributed dispatch center then sends a service exit acknowledgement (group ID, service ID) to the hong-mo device group C. The remote distributed scheduling center deletes service resources, such as: and (5) saved service content. A service synchronization notification (group ID, service ID, synchronization type such as end of service, release of resources) is then sent to the hong-and-Monte device A.

Example 3

Referring to fig. 3, fig. 3 is a schematic diagram of a cross-network-segment distributed scheduling system based on the internet according to an embodiment of the present invention, which is as follows:

the remote distributed scheduling center is used for carrying out identity verification on the registration information;

the scheduling group creating module is used for creating a remote scheduling group, and equipment in the group performs scheduling through the distributed scheduling capability;

the group joining module is used for receiving the remote scheduling group joining of the hong and Monte devices by the remote distributed scheduling center, and each remote device in the group forms a remote scheduling device list;

the remote distributed scheduling module is used for registering services, discovering services, authenticating services, calling services, reserving services, synchronizing services, exiting services and ending services, and realizing the distributed scheduling of the cross-network segments by matching with the remote distributed scheduling agent module;

the remote distributed scheduling agent module and the remote distributed scheduling module cooperate to intercept all or part of key messages of the OS distributed scheduling layer and synchronously send related messages to the remote distributed scheduling center.

The remote distributed scheduling module operates on the cloud end, and the remote distributed scheduling agent module operates on the equipment.

Referring to fig. 4, fig. 4 is a detailed module schematic diagram of a cross-network-segment distributed scheduling system based on the internet according to an embodiment of the present invention, which is as follows:

and a remote distributed scheduling center module is newly added in the whole system, and each hong Monte device is newly added with a remote distributed scheduling agent module. The remote distributed dispatching center module and the remote distributed dispatching agent modules of all the hong Monte devices cooperate with each other to complete the distributed dispatching capability of the three-layer network, so that the capability of using distributed dispatching and distributed soft buses between all the hong Monte devices even in the three-layer network is the same as that in the same local area network.

The HongMonte devices A1 to An are connected through a local area network 1, the HongMonte devices B1 to Bn are connected through a local area network 2, and the HongMonte device A and the HongMonte device B are connected through a remote distributed dispatching center. Through the mechanism, the distributed scheduler and the distributed soft bus of the hong Monte device are enabled to be free from sensing whether the hong Monte device A and the hong Monte device B are in the same local area network, so that the situation of crossing three layers of networks in the same local area network is achieved.

The remote distributed scheduling agent module functions include:

1) A remote dispatch group creation function and a join and exit function. A remotely scheduled group is created, and the devices within the group are mutually visible, i.e., scheduled by a distributed scheduling capability, after the remote scheduling function is turned on. The remote distributed scheduling agent module has the function of creating the group or joining and exiting, and the group is also created by the remote distributed scheduling center module;

2) Joining a remote scheduling group: the hong Monte devices support the join remote dispatch group function. After joining the remote scheduling group, each remote device in the group will form a remote scheduling device list;

3) The remote distributed scheduling agent module intercepts the equipment discovery, equipment synchronization and equipment registration equipment calling equipment interaction messages of the local area network of the original distributed scheduling and distributed soft bus of the OS, and comprises the steps of intercepting all or part of key messages, combining the interaction flow (service registration, service discovery, service authentication, service call, service reservation, service synchronization, service exit, service end and service connection) with the remote distributed scheduling center, and synchronously transmitting related messages to the remote distributed scheduling center to realize the closed loop of the service flow and the control flow of the whole service call.

The remote distributed dispatching center module functions include:

1) The registration function of the hong Monte device is supported, the identity verification is carried out, and only legal users can use the remote distributed scheduling capability;

2) Remote dispatch group creation function. A remotely scheduled group is created in which devices are mutually visible after the remote scheduling function is turned on, i.e. scheduled by means of a distributed scheduling capability. The remote distributed scheduling center module has the function of creating the group, and the group is also created by the remote distributed scheduling agent module;

3) Joining a remote scheduling group: remote dispatch group joining of the hong device is received, the operation carrying a group ID. A list of objects that the list of devices within the group distributes the distributed scheduling message; after joining the remote scheduling group, each remote device in the group will form a remote scheduling device list;

4) The remote distributed dispatching center forwards the received service discovery, service synchronization, service registration and service call messages sent by the hong Monte devices, and the forwarding purpose is a remote dispatching device list in the group. The specific forwarding scheme adopts an intranet penetration scheme or other self-selection schemes which are mature in the industry.

The distributed dispatching center is realized on a remote server, and the distributed agent module and the remote distributed dispatching module can be independent and independent devices or can be directly used as independent software to be installed in hong Monte devices; the registration module creates a dispatching group module, and joins the remote distributed dispatching center of the group module and the near end, namely the remote distributed dispatching agent module and the message forwarding module integrated software to be matched.

The remote distributed scheduling module includes an interactive control flow in remote call, such as: service registration, service discovery, service authentication, service call, service reservation, service synchronization, service exit, service end, and can also be implemented by a remote distributed scheduling agent module and an independent module thereof; and the sub-equipment discovery, the sub-equipment registration, the sub-equipment authentication and the sub-equipment connection service flow information. The devices are hong-mong OS devices with distributed scheduling capability or groups of hong-mong OS devices that make up a local area network.

The system also comprises a memory, a processor and a communication interface, wherein the memory, the processor and the communication interface are electrically connected with each other directly or indirectly so as to realize data transmission or interaction. For example, the components may be electrically connected to each other via one or more communication buses or signal lines. The memory may be used to store software programs and modules that, by being executed by the processor, perform various functional applications and data processing. The communication interface may be used for communication of signaling or data with other node devices.

Wherein the Memory is, but is not limited to, random access Memory (Random Access Memory, RAM), read Only Memory (ROM), programmable Read Only Memory (Programmable Read-OnlyMemory, PROM), erasable Read Only Memory (Erasable Programmable Read-Only Memory, EPROM), electrically erasable Read Only Memory (Electric Erasable Programmable Read-Only Memory, EEPROM).

The processor is an integrated circuit chip having signal processing capabilities. The processor is a general-purpose processor and comprises a central processing unit (Central Processing Unit, CPU) and a network processor (Network Processor, NP); or a digital signal processor (Digital Signal Processing, DSP), application specific integrated circuit (Application Specific Integrated Circuit, ASIC), field programmable gate array (Field-Programmable Gate Array, FPGA) or other programmable logic device, discrete gate or transistor logic device, discrete hardware components.

It is understood that the configuration shown in fig. 3 is merely illustrative and may include more or fewer components than those shown in fig. 3, or have a different configuration than that shown in fig. 3. The components shown in fig. 3 are implemented in hardware, software, or a combination thereof.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method are also implemented in other manners. The apparatus embodiments described above are merely illustrative, for example, flow diagrams and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of apparatus, methods and computer program products according to various embodiments of the present application. In this regard, each block in the flowchart or block diagrams represents a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

In addition, functional modules in various embodiments of the present application are integrated together to form a single component, or each module is separate, and two or more modules are integrated to form a single component.

The functions, if implemented in the form of software functional modules and sold or used as a stand-alone product, are stored in a computer-readable storage medium. Based on this understanding, the technical solution of the present application is essentially or what contributes to the prior art or that part of the technical solution is embodied in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (being a personal computer, a server, or a network device) to execute all or part of the steps of the method described in the embodiments of the present application. And the aforementioned storage medium includes: a usb disk, a removable hard disk, a Read-Only Memory (ROM), a random-access Memory (RAM, random Access Memory), a magnetic or optical disk, or various media storing program codes.

In summary, the method and system for cross-network-segment distributed scheduling based on the internet provided by the embodiments of the present application have at least the following advantages or beneficial effects compared with the prior art:

1. the method and the system provide the distributed capability for providing the cross-three-layer network, so that the hong Mongolian OS has the capability of distributed scheduling in the wide area network, the user experience is improved, and larger imagination space and market value are brought.

2. By adopting a scheduling scheme based on the transfer of a remote distributed scheduling center, a scheduling mechanism of the whole network is established through the remote scheduling center, and the limitation that the OS is only scheduled in a local area network or a local area network is broken.

3. On the premise of not changing the whole architecture of the system, the distributed scheduling capability can be added through a small amount of newly added module adaptation, and the distributed scheduling capability of each device is the same as the local area network and the cross-layer network device, so that the consistency of the design thought of the system and the consistency of user experience are maintained.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the same, but rather, various modifications and variations will be apparent to those skilled in the art. Any modification, substitution, or improvement made within the spirit and principles of the present application shall fall within the scope of the present application.

It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The internet-based cross-network-segment distributed scheduling method is characterized by comprising the following steps of:

the remote equipment initiates registration to generate registration information, and the remote distributed scheduling center performs identity verification on the registration information;

creating a remote scheduling group, wherein devices in the group are scheduled through distributed scheduling capability;

the remote distributed scheduling center receives the remote scheduling group joining of the hong Monte devices, each remote device in the group forms a remote scheduling device list, and the remote distributed scheduling module performs distributed scheduling on the remote scheduling device list;

the remote distributed scheduling agent module intercepts all or part of key messages of the OS and synchronously transmits related messages to the remote distributed scheduling center; or a remote distributed scheduling agent module which interacts with the distributed scheduling of the OS and the distributed soft bus message, and the user-defined message format interacts with a remote distributed scheduling module;

the remote distributed scheduling agent module intercepts all or part of key messages of the OS, and synchronously transmits related messages to a remote distributed scheduling center, which comprises the following steps:

the remote distributed scheduling agent module intercepts the equipment discovery, equipment synchronization and equipment registration equipment calling equipment interaction information of the local area network of the original distributed scheduling and distributed soft bus of the OS, and comprises the steps of intercepting all or part of key information, combining the interaction flow with the remote distributed scheduling center, and synchronously transmitting the related information to the remote distributed scheduling center to realize the closed loop of the service flow and the control flow of the whole service call.

2. The internet-based cross-segment distributed scheduling method of claim 1, wherein the remote device initiating registration to generate registration information, the remote distributed scheduling center performing authentication on the registration information comprises:

the registration function of the hong Monte device is supported and identity verification is performed, and only legal users can use the remote distributed scheduling capability.

3. The internet-based cross-segment distributed scheduling method of claim 1, wherein creating a remote scheduling group, the devices within the group being scheduled by a distributed scheduling capability comprises:

a remote scheduling group is created, and the devices in the group are visible to each other after the remote scheduling function is started, and scheduling is performed through the distributed scheduling capability.

4. The internet-based cross-segment distributed scheduling method of claim 3, further comprising:

the remote distributed scheduling module of the remote distributed scheduling center has the function of creating the group, the group is applied for creation by the remote distributed scheduling agent module of the first device, and other devices join the group and are joined by the remote distributed scheduling agent module; and the remote distributed scheduling module and the plurality of remote distributed scheduling agent modules are combined with the service flow to complete the distributed scheduling of the cross-network segment.

5. The internet-based cross-segment distributed scheduling method of claim 1, wherein the remote distributed scheduling center receiving a remote scheduling group join of the hong-mo device, each remote device in the group forming a remote scheduling device list comprising:

receiving the remote scheduling group joining of the hong Monte device, and operating to carry a group ID;

the list of devices within the group is a list of objects that will distribute the distributed scheduling message.

6. The internet-based cross-segment distributed scheduling method of claim 5, further comprising:

after joining the remote dispatching group, each remote device in the group forms a remote dispatching device list;

the remote scheduling device list forms a list of objects for distributed scheduling message distribution.

7. The internet-based cross-segment distributed scheduling method of claim 1, further comprising:

the remote distributed dispatching center forwards the received service discovery, service synchronization, service registration and service call information sent by the hong Monte devices, the forwarding purpose is a remote dispatching device list in the group, and the specific forwarding scheme adopts an intranet penetration scheme which is mature in industry.

8. An internet-based cross-segment distributed scheduling system, comprising:

the remote distributed scheduling center is used for carrying out identity verification on the registration information;

the scheduling group creating module is used for creating a remote scheduling group, and equipment in the group performs scheduling through the distributed scheduling capability;

the group joining module is used for receiving the remote scheduling group joining of the hong and Monte devices by the remote distributed scheduling center, and each remote device in the group forms a remote scheduling device list;

the remote distributed scheduling module is used for registering services, discovering services, authenticating services, calling services, reserving services, synchronizing services, exiting services and ending services, and realizing the distributed scheduling of the cross-network segments by matching with the remote distributed scheduling agent module;

the remote distributed scheduling agent module and the remote distributed scheduling module cooperate to intercept all or part of key messages of the OS distributed scheduling layer and synchronously send related messages to the remote distributed scheduling center; further comprises:

the remote distributed scheduling agent module intercepts the equipment discovery, equipment synchronization and equipment registration equipment calling equipment interaction information of the local area network of the original distributed scheduling and distributed soft bus of the OS, and comprises the steps of intercepting all or part of key information, combining the interaction flow with the remote distributed scheduling center, and synchronously transmitting the related information to the remote distributed scheduling center to realize the closed loop of the service flow and the control flow of the whole service call.

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