CN111866138A - Cloud mobile phone configured with cloud system operation - Google Patents

Abstract

The invention relates to the field of mobile phone equipment manufacturing, in particular to a cloud mobile phone operated by a cloud system. Current handsets undertake background running tasks, display functions, storage functions and other basic functions. Because a large number of tasks are required to be independently undertaken, the power consumption of the mobile phone is large; the storage capacity is difficult to expand freely due to the fact that the storage is determined by hardware; the mobile phone information is lost along with the change of the mobile phone. In order to solve the problems, the cloud mobile phone is provided with a set of cloud system, which is responsible for most of computing capacity and can freely expand storage capacity on the cloud system; the cloud mobile phone is only responsible for sending and receiving instructions, converting signals, displaying signals such as video characters and pictures, and performing a feedback function and other basic functions. Therefore, the operation burden of the mobile phone is greatly reduced, and the information data can be stored for a long time by being stored in the cloud system.

Description

Cloud mobile phone configured with cloud system operation

Technical Field

The invention relates to the field of mobile phone equipment manufacturing, in particular to a cloud mobile phone operated by a cloud system.

Background

With the continuous update and iteration of the 5G technology (fifth generation mobile communication technology) and the App (application program), a mobile phone terminal system is more and more complex, the system size is more and more large, meanwhile, the selection of hardware is more and more diversified, the mobile phone is upgraded by replacing a new mobile phone at present, although the method can really experience the advantages of the new mobile phone, after all, five-six-thousand-yuan RMB are frequently moved by flagship models of mobile phone manufacturers, and for ordinary users, the price is not enough for citizens, so that part of users cannot experience the latest technology.

Disclosure of Invention

In order to solve the problems of high price, large power consumption and difficulty in storing data during replacement of the mobile phone terminal, the invention aims to provide a cloud mobile phone with a configurable cloud system to overcome the defects.

In order to achieve the above object, the present invention provides a cloud-end mobile phone capable of configuring a cloud system, wherein the cloud-end mobile phone operates in a remote server. The user remotely sends an instruction to the cloud system through a client (a mobile phone/a tablet/a computer and the like) of the cloud mobile phone, and receives a real-time signal fed back by the cloud system in a video image mode, which is a rotary flow of the operation of the cloud mobile phone. The basic hardware of the cloud mobile phone comprises a Central Processing Unit (CPU), a Graphics Processing Unit (GPU), a screen, an antenna, a memory, a camera and other basic hardware. The cloud system comprises application management and account management. The user logs in the configured cloud mobile phone, can feel general smooth experience of the real mobile phone, and the data is stored in the cloud, so that the user can smoothly play the mobile phone wherever the user logs in as long as the user has a network.

By way of illustration, Android and IOS are currently popular mobile phone operating systems, and a cloud system designed by us is a cloud system including these operating systems, as shown in fig. 1. The cloud system can comprise a plurality of Android and IOS systems, and a user can select a required system by himself.

As a further explanation of the present invention, preferably, the user first needs to apply for an account, the necessary information includes an account, a mobile phone number, a mailbox, etc., and a unique identification number is obtained after the application is successful, which is the basis for the system to identify the uniqueness of the user and is similar to an identification number.

As a further description of the present invention, preferably, the user logs in by using the account number or the unique identification number during registration, and after the login is successful, the user defaults to use a set of hardware configuration allocated by the system.

As a further description of the present invention, preferably, the cloud mobile phone can be hung up remotely, for example, a background App can be run remotely, a dish stealing process is performed, a game is run remotely, and other program background operation works are performed.

As a further description of the present invention, preferably, when downloading, transmitting and uploading a file, a user only needs to send a transmission instruction to the cloud system, and the cloud system is responsible for downloading, transmitting and uploading the file, so as to reduce power consumption, flow consumption and the like in the process of directly downloading, transmitting and uploading the file by a mobile phone. The designed cloud system comprises cloud storage, and the cloud storage can use the currently popular private cloud. The private cloud has higher security and privacy and can be customized, the principle is shown in fig. 2, data is stored on the N nodes, and data loss does not need to be worried about; the mobile phone A transmits data to the mobile phone B, and the speed is higher by using the same computing node.

As a further explanation of the present invention, it is preferable that the user issues an application if he wants to experience a higher configuration, and the hardware is updated by a professional after the audit is passed. The hardware is pluggable, for example, if a user needs a higher performance GPU, the user manually disassembles the low GPU and replaces it with the high GPU.

In summary, virtual mobile phones carried by the ARM cloud technology are used, virtual mobile phone devices are all operated in a cloud server constructed by the ARM, and a user accesses the cloud server to remotely control the cloud mobile phones. The advantages are stable operation, and no problems of halt, flash back and the like even if the operation is carried out continuously for 24 hours for a long time.

The cloud mobile phone has many unique characteristics and functions, which are not available in other mobile phones. The cloud mobile phone can be permanently operated online for 24 hours, can be managed offline, namely the local client is closed, the cloud mobile phone still operates normally, and the cloud mobile phone does not generate heat or consume electricity in the operation process, which is one of the biggest characteristics.

Description of the drawings:

fig. 1 is a general schematic diagram of a cloud system of the present invention.

Fig. 2 is a schematic diagram of a cloud system storage architecture of the present invention.

FIG. 3 is a schematic diagram of a cloud system single processor of the present invention.

Fig. 4 is a schematic diagram of the interaction of the cloud system and the cloud handset of the present invention.

Fig. 5 is a schematic diagram of a cloud system and a cloud handset operation flow.

The specific implementation scheme is as follows:

in order to further understand the structure, characteristics and objects of the present invention, the following detailed description is given with reference to the accompanying drawings, in which the embodiments described in the present drawings are only used for explaining the technical aspects of the present invention, and the present invention is not limited.

The circuit board is a core component of the smart phone, the circuit board comprises a plurality of special chips for the smart phone, and a hardware solution of the cloud mobile phone is provided. The hardware system structure uses a single processor structure, which includes the basic communication functions (call, information, GPRS, etc.) of the mobile phone and the processing of multimedia and application software, and this single processor integrates a digital baseband, an analog baseband, radio frequency, power management, SRAM (running memory), etc., as shown in fig. 3. In the mobile phone terminal, a radio frequency chip is responsible for radio frequency transceiving, frequency synthesis and power amplification; and the baseband chip is responsible for signal processing and protocol processing. In short, the rf chip functions as a transmitter and a receiver.

The radio frequency power amplifier chip in the smart phone mainly amplifies radio frequency signals, so that enough power is transmitted to a base station. The radio frequency functional power amplifier is one of elements with large power consumption in the smart phone, and circuits such as a filter, an amplifier, a matching circuit, power monitoring, bias control and the like are mainly integrated in the radio frequency functional power amplifier.

The central processing unit chip is a core component of the smart phone, and the microprocessor in the smart phone is similar to a central processing unit in a computer, is a control center system of the whole smart phone and is also a control core of a logic part. The microprocessor achieves the purpose of monitoring the whole mobile phone by operating the software in the memory and calling the database in the memory. All data to be processed are finished through the CPU, and management and the like of all parts of the mobile phone cannot be unified and coordinated with the microprocessor.

The power management chip is a chip which undertakes conversion, distribution, detection and other electric energy management responsibilities in the smart phone system. Meanwhile, the battery charging can be managed and controlled.

There are various types of memories of smartphones: the mobile phone comprises a Flash memory, a RAM random access memory, a ROM read-only memory and the like, wherein the mobile phone memory is mainly used for storing a main program, a word stock, a user program, user data and the like of the mobile phone.

The cloud system is divided into two parts, namely a storage system and an operation system.

The storage system is shown in fig. 2, data is stored in a computing node in the cloud system, a Read Only Memory (ROM) in the smart phone is replaced, and the data is read and stored through a central processing unit of the cloud system. This has the advantage that the mobile phone does not require a large amount of storage space.

The computing system is responsible for all computing processing, and the required computing power is high, and a distributed computing system as shown in fig. 4 is adopted. The main node manages all the child nodes and is responsible for distributing operation tasks to the child nodes. The child nodes are responsible for processing the operation tasks of the node and do not care about the conditions of other nodes. The operation system adopts the operation of parallel computation, so that the operation system can exert the maximum value and the computing capability is strongest.

The complete process is as follows: the user operates the mobile phone by touching a keyboard or a touch screen, a mobile phone sensor transmits captured signals to a CPU, the CPU converts the captured signals into machine instructions after processing, the machine instructions are transmitted to the cloud system through the radio frequency chip, and the cloud system calls a corresponding operation system and a storage system to process the task after receiving the instructions. And after the task processing is finished, returning a signal to the mobile phone terminal. And the process is circulated.

Claims (7)

1. The invention relates to the field of mobile phone manufacturing for cloud operation, which comprises a cloud system and a cloud mobile phone with a cloud system account, wherein most of storage functions and most of operation functions are borne by the cloud system, the cloud mobile phone is responsible for receiving, converting, displaying, feeding back and other basic functions of signals, and the storage capacity of mobile equipment is enhanced by expanding the storage capacity of the cloud system.

2. The cloud mobile phone of claim 1, wherein the basic hardware comprises a CPU (central processing unit), a GPU (graphics processing unit), a screen, an antenna, a memory, a camera, and the like.

3. The cloud mobile phone of claim 1, wherein the cloud mobile phone comprises a mobile device such as a mobile phone/tablet/computer, and the cloud mobile phone sends an instruction to the cloud system by means of a network such as a 3G/4G/5G/lan, receives a signal transmitted from the cloud system, and displays the signal in a video or image mode.

4. The cloud system of claim 1, comprising an application management, account management, arithmetic processing system: after the cloud mobile phone logged in the cloud system sends a command request to the cloud system, the cloud system processes, calculates, uploads information and downloads data to the command request, a final result is transmitted to the cloud mobile phone by using a signal with video, image or text as content, and the result is displayed by the cloud mobile phone.

5. The cloud system of claim 1, having an operating system and corresponding CPU that is the same as the cloud-based handset, and capable of performing most of the computing tasks that would otherwise be handled by the cloud-based handset.

6. The cloud system of claim 1, wherein the cloud system comprises a storage system for storing data, documents, running programs and personal accounts.

7. The cloud handset and cloud system of claim 1, wherein the cloud handset is only responsible for sending commands, receiving, converting and displaying signals, and the cloud system is responsible for most other operations, comprising:

step one, configuring a cloud system with the same operating system as the mobile equipment and taking charge of storage, operation and data transmission functions;

step two, configuring a cloud mobile phone, logging in a cloud system through account management, and loading a set cloud system interface;

thirdly, the cloud mobile phone sends a command request to the cloud system through a mobile network (including a 3G/4G/5G/local area network and the like); after receiving the command request, the cloud system carries out uploading tasks, downloading tasks, calculating tasks, storing tasks, information processing tasks and the like according to the command request, and transmits real-time signals to the cloud mobile phone in a video, image, text and other modes after finishing the command request;

and fourthly, after receiving the real-time signal transmitted by the cloud system, the cloud mobile phone displays the video, the image or the text and the like through basic hardware of the cloud mobile phone, and requests a sending function according to a command of the cloud mobile phone to operate in real time.

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