CN106850589B - Method for managing and controlling operation of cloud computing terminal and cloud server - Google Patents

Abstract

The invention discloses a method and a device for managing and controlling the operation of a cloud computing terminal and a cloud computing server, wherein the method comprises the following steps: fusing cloud terminal resources through a cloud computing server; allocating resources to run one or more user-customized cloud systems; activating a cloud system selected by a user according to an instruction of the user for operating the cloud computing terminal to log in a cloud computing server, and dynamically allocating the fused cloud terminal resources to the cloud system through a cloud cluster architecture of the cloud computing server; managing and monitoring transmission between a communication interface of a cloud computing service layer of each cloud computing terminal and a service interface of a cloud computing server, so that GUI data, instruction data and application program data are synchronized between the cloud computing terminals and associated cloud systems; and storing the service record of each cloud computing terminal in the cloud computing server, and backing up the associated cloud system historical data. The device comprises a resource fusion module, a resource distribution module, a scheduling management module, a transmission management module and a logistics module.

Description

Method for managing and controlling operation of cloud computing terminal and cloud server

Technical Field

The invention belongs to the field of cloud computing and the field of mobile communication, and particularly relates to a method and a device for managing and controlling operation of a cloud computing terminal and a cloud computing server.

Background

Intelligent mobile terminals, such as smart phones, tablet computers, portable game machines, etc., have become network terminal devices from which people can not leave in daily life. The whole machine updating period of the current intelligent mobile terminal product is short, and consumers often need to replace the mobile terminal product with a new version in an even year. However, these updated products typically stack performance parameters such as CPU computing power, memory size, storage capacity, while other hardware (e.g., display screen, network adapter) is updated to a lesser extent. The frequent replacement of electronic products brings economic pressure to consumers and is not beneficial to energy conservation and environmental protection. Moreover, for some users who pursue "sense of sufficiency", their smart terminals tend to be excessive in performance, resulting in waste.

On the other hand, with the increasing development of mobile communication technology, the fifth generation mobile communication technology (5G) is about to be commercialized, and the smart mobile terminal will enjoy a more rapid and convenient network interconnection environment. In the 5G era, 500 billion connections of internet of everything will appear all over the world, and the requirements of people on the computing power and the service quality of intelligent terminals are higher and higher. Mobile cloud computing will become one of the key technologies of 5G network innovation services. Mobile cloud computing is a completely new mode of delivery and use of IT resources or information services, and is a product of introducing cloud computing in the mobile internet.

In addition, in the smart mobile terminal market, there is also a need for enterprise applications and security services. And a user needs to use various operating systems or customized systems, for example, a user uses a Windows system when going on a business and uses an Android system for a communication mobile phone, and great convenience is brought if the user can use various operating systems in the same mobile terminal.

Disclosure of Invention

The invention provides a method and a device for managing and controlling the operation of a cloud computing terminal and a cloud computing server, which solve the problem of cooperative work of the mobile cloud computing terminal and the cloud computing server so as to meet the requirement. The cloud computing terminal comprises a basic system architecture used for basic communication and application functions and a cloud computing service layer used for interacting with a cloud system in a remote cloud computing server, and the cloud computing server comprises a cloud cluster architecture used for generating a cloud system operating environment and a service interface used for providing cloud computing service for the cloud computing terminal.

The technical scheme adopted by the invention is that on one hand, the method for managing and controlling the operation of the cloud computing terminal and the cloud computing server comprises the following steps: A. fusing cloud terminal resources through a cloud computing server; B. allocating resources for running one or more cloud systems customized by the user according to the service items registered by the user; C. activating a cloud system selected by a user according to an instruction of the user for operating the cloud computing terminal to log in a cloud computing server, and dynamically allocating the fused cloud terminal resources to the cloud system through a cloud cluster architecture of the cloud computing server; D. managing and monitoring transmission between a communication interface of a cloud computing service layer of each cloud computing terminal and a service interface of a cloud computing server, so that GUI data, instruction data and application program data are synchronized between the cloud computing terminals and associated cloud systems; E. and storing the service record of each cloud computing terminal in the cloud computing server, and backing up the associated cloud system historical data.

Further, in the step a, the cloud terminal resources include a central processing unit operation resource, a random access memory resource, or a data storage resource of the cloud terminal.

Further, the step C includes: monitoring resource occupancy of each cloud system in a set of cloud systems during operation in the cloud cluster architecture; if the current total resource occupation amount is higher than a preset upper limit threshold value, dynamically changing the execution sequence of the cloud system group according to the resource request amount occupied by each cloud system in the plurality of cloud systems, so that the execution priority of the cloud system with smaller resource occupation amount is higher than the execution priority of the cloud system with larger resource occupation amount; executing the cloud system with larger resource occupation in the idle time of the execution interval of the cloud systems with smaller resource occupation; and if the total amount of the current occupied resources is lower than a preset lower limit threshold, restoring or maintaining the original execution sequence of the cloud system.

Preferably, the resource occupation amount comprises the length of time slice occupying a central processor, the usage amount of occupying a random access memory, the usage amount of occupying a data storage or the usage amount of occupying network resources. The upper limit threshold and/or the lower limit threshold can be adjusted in real time according to the current cloud terminal resource amount integrated by the mobile cloud computing platform. Preferably, the basic system architecture includes an Android architecture, a Windows architecture, and a Unix architecture.

Further, the step D includes: one or more buffer areas are allocated in the cloud computing server and/or the cloud computing terminal and used for buffering real-time data in the transmission channel in the real-time interaction process between the communication interface of the cloud computing service layer of the cloud computing terminal and the cloud computing server.

Further, the step D further includes the steps of: the speed priority of the buffer zone allocated for the instruction transmission channel is higher than that of other channels; and/or the size of the buffer allocated for the normal file data transmission channel is larger than that of the other channels.

Further, the step E includes: and recovering the resources of the cloud system logged out by the mobile terminal, and distributing the resources to other operating cloud systems in the cloud system group where the logged-out cloud system is located.

Another aspect of the present invention is an apparatus for managing and controlling operations of a cloud computing terminal and a cloud computing server, including: the resource fusion module is used for fusing cloud terminal resources through a cloud computing server; a resource allocation module to allocate resources to run one or more user-customized cloud systems; the scheduling management module is used for activating the cloud system selected by the user according to an instruction of the user for operating the cloud computing terminal to log in the cloud computing server, and dynamically allocating the fused cloud terminal resources to the cloud system through a cloud cluster architecture of the cloud computing server; the transmission management module is used for managing and monitoring transmission between a communication interface of a cloud computing service layer of each cloud computing terminal and a service interface of the cloud computing server, so that GUI data, instruction data and application program data are synchronized between the cloud computing terminals and the associated cloud systems; and the logistics module is used for storing the service record of each cloud computing terminal in the cloud computing server and backing up the associated cloud system historical data.

The invention has the beneficial effects that: the working method between the cloud computing mobile terminal and the cloud computing server is high in efficiency; the scheduling mechanism of the mobile cloud computing platform is optimized, the cloud computing fusion resources are reasonably distributed, and a stable system operation environment is provided for the mobile cloud computing terminal to call.

Drawings

FIG. 1 is a schematic diagram of an application platform and its operating modes according to the present invention;

FIG. 2 is a schematic diagram of an operating environment of a cloud computing server according to the present invention;

FIG. 3 is a flow chart of a policing method according to the present invention;

fig. 4 is a flowchart of a scheduling method according to a preferred embodiment of the policing method of the present invention.

Detailed Description

Fig. 1 illustrates an application platform and an operating mode thereof according to the present invention, in which a cloud computing terminal and a cloud computing server are networked through a communication device, and the networking mode may be a wired connection, a wireless connection, or any combination thereof. It should be understood that the cloud computing terminal, the cloud computing server, and the communication device may be plural in number, respectively. The cloud computing terminal can operate in a basic mode and a cloud computing mode. Basic communication functions such as conversation, short message and the like are maintained in the basic mode. In the cloud mode, the cloud computing server can be accessed through a high-speed network, and rich system resources are loaded, such as various entertainment systems and office systems customized by a user are logged in and used. The cloud computing terminal may be embodied as a smart phone, a tablet computer, a portable game machine, and the like having a network communication function. Specifically, technologies such as mobile communication connection (for example, 2G, 3G, 4G, or 5G communication), wide area network, or ethernet may be used to form a network between the cloud computing terminal and the cloud computing server. The communication devices include network adapters, network switches, routers, modems, fiber/twisted pair lines, wireless APs, antennas, mobile communication base stations, and the like.

Fig. 2 is a schematic diagram illustrating an operating environment of a cloud computing server according to the present invention. The cloud computing server may include a cloud cluster architecture, a converged scheduling module including a processor, a scheduler, and a memory, and a transmission management module including a network manager and network hardware. The cloud cluster architecture integrates cloud terminal resources to provide an operating environment for a plurality of groups of cloud systems, a plurality of cloud systems are sequentially simulated and operated in each group of cloud systems, and the cloud systems process communication of corresponding cloud computing terminals through a network manager to provide cloud computing services. The processor may cause the scheduler to schedule resources from various cloud computing devices in the cloud cluster network or from cloud computing terminals based on current operating conditions of the cloud computing server. In one example, when the storage capacity of the cloud computing server is tight, the processor may analyze idle NAS resources connected to the cloud computing server in the cloud cluster network, and address available storage content of the NAS into the storage through the scheduler for use inside the cloud computing server or for use by one or more cloud computing terminals. In another example, when the memory capacity of the cloud computing server is tight, the processor may analyze the idle memory resources of the cloud computing terminal connected to the cloud computing server, and integrate the available idle memory resources of the cloud computing terminal into the memory pool in the cloud computing server through the scheduler.

In a preferred embodiment, in order to cooperate with the converged scheduling module of the cloud computing server, the cloud computing terminal further includes a resource scheduling module, configured to schedule and allocate software and hardware resources of the local and/or cloud end to the cloud computing service layer. And the resource allocation module adjusts the allocation amount of the software and hardware resources according to the request amount and the request priority of the cloud computing service layer and the transmission management module and according to the network throughput of the communication transmission unit. The resource allocation module comprises: the memory fusion unit is used for fusing the memory resources of other cloud computing devices through a scheduler of the cloud computing server; and the storage fusion unit is used for fusing storage resources of other cloud computing equipment through the cloud computing server. The cloud computing device may comprise a distributed remote extension to a cloud computing server or another cloud computing terminal having access to a cloud computing server. In this way, each cloud computing terminal can call idle resources (such as CPU, RAM, ROM resources) of the remote extension in the whole cloud platform network, and integrate to the local host as an extension of the local resources, so that the local host uses more external integration resources without upgrading hardware.

Fig. 3 is a flowchart illustrating a management and control method for a cloud computing terminal and a server according to the present invention.

The illustrated method includes the steps of: A. fusing cloud terminal resources through a cloud computing server; B. allocating resources for running one or more cloud systems customized by the user according to the service items registered by the user; C. activating a cloud system selected by a user according to an instruction of the user for operating the cloud computing terminal to log in a cloud computing server, and dynamically allocating the fused cloud terminal resources to the cloud system through a cloud cluster architecture of the cloud computing server; D. managing and monitoring transmission between a communication interface of a cloud computing service layer of each cloud computing terminal and a service interface of a cloud computing server, so that GUI data, instruction data and application program data are synchronized between the cloud computing terminals and associated cloud systems; E. and storing the service record of each cloud computing terminal in the cloud computing server, and backing up the associated cloud system historical data. The step B also comprises the following steps: according to the service registered by the user, cloud system resources are pre-allocated for operating the cloud system, and the cloud system which is logged in by the user last time or the cloud system which is logged in by the user in a default mode can be optionally pre-loaded and operated. Step D also includes: sending user-customized cloud system GUI data and application program data which run based on cloud computing resources; running and updating corresponding programs and functions according to the user instruction and the terminal parameters; and updating data, packaging the GUI and the APP data file, and sending to the cloud computing terminal.

In step D, to ensure real-time data transmission, the following transmission control method is preferably adopted: monitoring an instruction channel, an application program data channel and a file data channel between a communication interface of the cloud computing service layer and a cloud computing server, wherein the instruction channel transmits an instruction generated when a user operates the human-computer interaction device and an instruction sent by the cloud computing server, the application program data channel transmits application program operation data including GUI synchronous refreshing data, and the file data channel is used for transmitting media file data or basic user files; when the network resources are distributed, the occupation priority of the instruction channel to the network resources is higher than that of the application program data channel, and the occupation priority of the application program data channel to the network resources is higher than that of the file data channel; the real-time data in the transmission channel is buffered in the real-time interaction process between the communication interface of the cloud computing service layer and the cloud computing server, the speed priority of the buffer area of the configuration instruction channel is higher than that of other channels, and the volume of the buffer area of the configuration file data flow channel is larger than that of other channels. Therefore, the corresponding local GUI interface displayed in the display of the human-computer interaction device can be driven through the application program data channel according to the activated GUI interface of the cloud system, the instruction channel is connected in real time, the local GUI interface is preferentially generated, and the local GUI interface and the cloud GUI interface are synchronized. For example, once a user operates a touch screen of the cloud computing terminal to click an icon of a social APP in an APP function page, the GUI management unit immediately generates a target interface for displaying chat friends and a cached friend online status identifier locally by using cached data (e.g., friend page data) of the social APP; the click operation instruction of the user is transmitted to the cloud computing server through the instruction channel, the corresponding cloud system is triggered to analyze the click action, then the cloud computing server returns updated GUI data to the GUI management unit, and updating synchronization is carried out on the pre-generated target interface in a small amplitude, such as updating the online state identification of the chat friend. Compared with the traditional interface transmission mode based on remote assistance, the GUI updating mode has the advantages of higher speed and efficiency, and obviously improves interface fluency and user real-time operation experience.

Fig. 4 is a flowchart of a scheduling method according to a preferred embodiment of the policing method of the present invention. The scheduling method specifically comprises the following steps:

s101, pre-distributing cloud system resources and grouping cloud systems with the same environmental requirements according to the requirements customized by user registration;

s102, monitoring the resource occupation amount of each cloud system in a group of cloud systems during running;

s103, judging whether the total amount of the current resource occupation is higher than a preset upper limit threshold value;

s104, dynamically changing the execution sequence of the cloud system group according to the resource request occupied by each cloud system in the plurality of cloud systems, so that the execution priority of the cloud system with smaller resource occupation is higher than that of the cloud system with larger resource occupation;

s105, executing the cloud system with larger resource occupation in the idle time of the execution interval of the plurality of cloud systems with smaller resource occupation;

s106, continuously monitoring the resource occupation amount of each cloud system;

and S107, when the total amount of the current resource occupation is judged to be lower than a preset lower limit threshold, restoring or maintaining the original execution sequence of the cloud system in the step S108.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above embodiment, and the present invention shall fall within the protection scope of the present invention as long as the technical effects of the present invention are achieved by the same means. The invention is capable of other modifications and variations in its technical solution and/or its implementation, within the scope of protection of the invention.

Claims (6)

1. A method of managing operations of a cloud computing terminal and a cloud computing server, the cloud computing terminal including an infrastructure for infrastructure communication and application functions and a cloud computing service layer for interacting with a cloud system in a remote cloud computing server, the cloud computing server including a cloud cluster infrastructure for generating a cloud system operating environment and a service interface for providing cloud computing services to the cloud computing terminal, the method comprising:

A. fusing cloud terminal resources through a cloud computing server;

B. allocating resources for running one or more cloud systems customized by the user according to the service items registered by the user;

C. activating a cloud system selected by a user according to an instruction of the user for operating the cloud computing terminal to log in a cloud computing server, and dynamically allocating the fused cloud terminal resources to the cloud system through a cloud cluster architecture of the cloud computing server;

D. managing and monitoring transmission between a communication interface of a cloud computing service layer of each cloud computing terminal and a service interface of a cloud computing server, so that GUI data, instruction data and application program data are synchronized between the cloud computing terminals and associated cloud systems;

E. storing the service record of each cloud computing terminal in a cloud computing server, and backing up associated cloud system historical data;

characterized in that, the step C comprises:

monitoring resource occupancy of each cloud system in a set of cloud systems during operation in the cloud cluster architecture;

if the current total resource occupation amount is higher than a preset upper limit threshold, dynamically changing the execution sequence of the cloud system group according to the resource request amount occupied by each cloud system in the cloud system group, so that the execution priority of the cloud system with smaller resource occupation amount is higher than that of the cloud system with larger resource occupation amount;

executing the cloud system with larger resource occupation in the idle time of the execution interval of the cloud systems with smaller resource occupation;

if the total amount of the current resource occupation is lower than a preset lower limit threshold, recovering or maintaining the original execution sequence of the cloud system;

and in step D comprises:

when the network resources are distributed, the occupation priority of the instruction channel to the network resources is higher than the occupation priority of the application program data channel to the network resources, and the occupation priority of the application program data channel to the network resources is higher than the occupation priority of the file data channel to the network resources; the real-time data in the transmission channel is buffered in the real-time interaction process between the communication interface of the cloud computing service layer and the cloud computing server, the buffer region speed priority of the configuration instruction channel is higher than that of other channels, and the volume of the buffer region of the configuration file data flow channel is larger than that of other channels.

2. The method according to claim 1, wherein in step a, the cloud terminal resources include central processor computing resources, random access memory resources, or data storage resources of the cloud terminal.

3. The method of claim 1, wherein the resource occupancy comprises a length of time slices occupying a central processor, a usage amount of occupying a random access memory, a usage amount of occupying a data storage, or a usage amount of occupying a network resource.

4. The method according to claim 1, wherein the upper threshold and/or the lower threshold may be adjusted in real time according to a current amount of cloud terminal resources converged by the cloud computing server.

5. The method for managing the operation of the cloud computing terminal and the cloud computing server according to claim 1, wherein the step E comprises: and recovering the resources of the cloud system logged out by the cloud computing terminal, and distributing the resources to other operating cloud systems in the cloud system group where the logged-out cloud system is located.

6. The method of claim 1, wherein the basic system architecture comprises an Android architecture, a Windows architecture, and a Unix architecture.

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