CN103345406A

CN103345406A - System and method for achieving cloud virtual mobile terminal of intelligent mobile terminal

Info

Publication number: CN103345406A
Application number: CN2013102482220A
Authority: CN
Inventors: 范小朋; 刘丹丹; 杨鑫; 须成忠; 张帆
Original assignee: Shenzhen Institute of Advanced Technology of CAS
Current assignee: Shenzhen Institute of Advanced Technology of CAS
Priority date: 2013-06-21
Filing date: 2013-06-21
Publication date: 2013-10-09

Abstract

The invention discloses a system for achieving a cloud virtual mobile terminal of an intelligent mobile terminal. The system comprises the intelligent mobile terminal and a cloud, wherein the intelligent mobile terminal is an intelligent mobile terminal for operating an Android operating system, and comprises operating system version information, CPU information and memory information; the cloud comprises the virtual mobile terminal and a Web server; the Web server serves as an intermediary agent of interaction between the intelligent mobile terminal and the virtual mobile terminal, is in communication with the intelligent mobile terminal through WiFi or the 3G wireless network, then is in communication with the virtual mobile terminal through the wired network, and carries out dynamic arrangement on the virtual mobile terminal according to state information of the intelligent mobile terminal. The virtual mobile terminal has the integrated operating system of a smart phone and operates on a cloud server; compared with a present mobile phone emulator used by an Android developer, the virtual mobile terminal has more abundant software resources and hardware resources, and improves the development efficiency of application programs.

Description

A kind of system and method for realizing the virtual portable terminal in high in the clouds of intelligent mobile terminal

Technical field

The present invention relates to computer realm, especially a kind of system and method for realizing the virtual portable terminal in high in the clouds of intelligent mobile terminal.

Background technology

Virtual machine (Virtual Machine) refer to by software simulation have the complete hardware system function, operate in a complete computer in the complete isolation environment.

Pass through software virtual machine, you can simulate two or many virtual computing machines at a physical computer, these virtual machines carry out work just as real computing machine fully, for example you can installing operating system, set up applications, accesses network resource etc.For you, it just operates in an application program on your physical computer, but for for the application program of moving in the virtual machine, it is exactly a real computing machine.Therefore, when you carried out software evaluation in virtual machine, possible system equally can collapse; But, the operating system on the just virtual machine of collapse, rather than the operating system on the physical computer, and, use the Undo(of virtual machine to recover) function, you can recover virtual machine to the state of installing before the software at once.

Since the concept of virtual machine is suggested, used widely always.At present virtual machine can be divided into two kinds, and first kind is virtual to computer system, and it and real operating system have essentially identical function, can be in this virtual environment operating software, this type of virtual machine is to realize by software simulation.Another kind is certain application runtime environment to be carried out virtual, and each application program is operated in separately the virtual environment, is independent of each other.

Popular software virtual machine has VMware (VMWare ACE), Virtual Box and Virtual PC at present, and they can both fictionalize a plurality of computing machines in the Windows system.

Now, because resource-constraineds such as the CPU processing power of smart mobile phone self, memory headroom, battery capacities, when the user uses cloud service, a large amount of battery electric quantities and CPU working time have often been consumed; Because the virus that the internet is propagated causes operation system of smart phone collapse or unusual, causes loss of data; Because the instability of wireless link, and the replacing of smart mobile phone or lose and wait the problem that occurs in actual the use, the unreliability of cloud terminal when visiting cloud service caused; Because the internal memory of Android simulator is limited, when the application program in the relatively more expensive source of exploitation the simulator operation very slow, cause puzzlement to the developer.

At present, virtual mobile phone is used more extensive, wherein, the Android simulator is the virtual mobile phone that the Android developer uses always, though this development scheme is simple and convenient, also there are some drawbacks simultaneously, because the internal memory of Android simulator is limited, if develop the relatively application program of consumes resources, the simulator operation is very slow; Along with the variation that simulator resolution arranges, resolution is more big, and it is slower that simulator also can operating ratio.

Application number is that 200810113384.2 patent has proposed a kind of virtual mobile phone for demonstration on interface and its implementation, this virtual mobile phone comprises display end and end for process, wherein display end has the outward appearance of mobile phone, be used for receiving user's input information, end for process is used for receiving display end input information, be sent to display end after treated, can carry out demonstration on interface, but be not a virtual mobile phone with complete operation system.

Therefore, the invention provides a kind of high in the clouds virtual machine approach of smart mobile phone, purpose is to set up a virtual mobile phone that has the same operation system with the physics mobile phone beyond the clouds, when the physics cell phone system goes wrong, can return to initial state timely, because the mobile phone virtual machine runs on the Cloud Server, with respect to the local intelligent mobile phone, it has abundant more sufficient soft, hardware resource and also can develop Android efficiently for the Android developer and use in addition.The virtual machine that the present invention relates to is the smart mobile phone with Android operating system that utilizes virtual software VMware to combine and fictionalize in the Windows system with the Android-x86 platform, and this mobile phone virtual machine is faster than the mobile phone simulator speed that present Android developer uses.

Summary of the invention

At the deficiency of the mobile phone simulator that has Android developer use now, the embodiment of the invention provides a kind of system of the virtual portable terminal in high in the clouds of intelligent mobile terminal that realizes to improve the development efficiency of application program.

For achieving the above object, the technical solution adopted for the present invention to solve the technical problems is that the system of the virtual portable terminal in high in the clouds of described realization intelligent mobile terminal comprises:

Intelligent mobile terminal, described intelligent mobile terminal contains operating system version information, CPU information and memory information for the intelligent mobile terminal of operation Android operating system;

High in the clouds, described high in the clouds comprises virtual portable terminal and Web server.

Concrete, described Web server is as the mutual intermediary of described intelligent mobile terminal and described virtual portable terminal, communicate by WiFi or 3G wireless network and described intelligent mobile terminal, communicate by cable network and described virtual portable terminal again, according to the status information of described intelligent mobile terminal described virtual portable terminal is dynamically arranged.

Concrete, described virtual running of mobile terminal arranges corresponding operating system version information, CPU information, memory information and software information has been installed according to the configuration information of described intelligent mobile terminal on Cloud Server.

Preferably, adopt Samsung Galaxy S Advance smart mobile phone as the major equipment of described intelligent mobile terminal, configuration comprises the ST-Ericsson DB8500CPU of a double-core 1024M dominant frequency, the internal memory of 768M and the storage space of 16G, operation Android OS2.3 operating system, and the software development environment of support WiFi and 3G wireless network portable terminal, described software development environment comprises Eclipse IDE for Java EE developers Integrated Development Environment, the JDK1.7 virtual machine, Android SDK14.0 Android software development kit and ADT12.0 Android developing instrument.

Preferably, described high in the clouds uses DELL R410 blade server as key node, be responsible for and being connected of outer net, and manage other common computing nodes, the configuration of described blade server comprises the PCI-Express that SAS hard disk that the internal memory of Intel Xeon E5506CPU, the 8G of one four nuclear 2.13GHZ dominant frequency, three capacity are 300G and plate carry two BCM5716, the Centos5.5-64bits operating system of operation 2.6.18 kernel.

Another object of the present invention is to provide a kind of method that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal, when the physics cell phone system goes wrong, can return to initial state in time.

For achieving the above object, the technical solution adopted for the present invention to solve the technical problems is that described a kind of method that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal may further comprise the steps:

(1) build the Software Development Platform of intelligent mobile terminal: described intelligent mobile terminal is by installing JDK, Android SDK and Android Development Tools at the Eclipse platform, namely the ADT plug-in unit is realized building of described Software Development Platform.

Concrete, described step (1) may further comprise the steps:

(101) Android SDK is installed: will download the good direct solution of compressed file bag and be depressed into assigned catalogue, and the absolute path of instrument among the Android SDK added in the system environment variable, enter the command prompt window under the windows, detect SDK by operation android h and whether successfully install.Preferably, in the described step (101), use Android SDK14.0 version.

(102) under the Eclipse environment, finish the loading of ADT: open Eclipse, click " Help " in the menu → " Install New Software " successively, after ejecting " Available Software " dialog box, click " Add " button, " Add Repository " dialog box appears, click then " Local ", add the path of ADT12.0, click again " OK ", in the dialog box that occurs, choose " Android DDMS " and " Android Development Tools ", click then " Install ", next install according to system prompt.Preferably, in the described step (102), use the ADT12.0 version.

(103) set Android SDK path: restart Eclipse, enter " windows " → " Preferences " in the menu, after appearance " Preferences " dialog box, click " Browser " and add Android SDK path.

(104) create the AVD virtual unit: open the cmd control desk, carry out android list target and check available platform, according to android creat avd name＜AVD name 〉-target＜id〉form establishment AVD.

(2) the web server in establishment high in the clouds: adopt Eclipse as the development platform of described Web server, Eclipse IDE for Java EE developers Integrated Development Environment, JDK1.7 virtual machine, Tomcat6.0 server are installed.

Specific to, described step (2) may further comprise the steps:

(201) the Tomcat server is installed: will download the good direct solution of compressed file bag and be depressed into assigned catalogue, then the absolute path of Tomcat is added in the system variable, as follows: CATALINA_HOME:Tomcat absolute path, CATALINA_BASE:Tomcat absolute path, TOMCAT_HOME:Tomcat absolute path, revise classpath again, common in the Tomcat installation directory servlet.jar under the lib be appended among the classpath.Preferably, in the described step (201), use the Tomcat6.0 version.

(202) start the Tomcat server: for the windows platform, double-click the startup.bat file in the bin path under the Tomcat installation path, behind the startup Tomcat, open the IE browser, at address field input http://localhost:8080.

(203) related with Eclipse: as to open Eclipse, click " Windows " in the menu → " Preferences " successively, eject " Preferences " dialog box, click " Server " → " the Runtime Environments " of left-hand column then successively, after appearance " Add Repository " dialog box, click " Add ", add Apache Tomcat v6.0, after clicking " OK " again, enter the Eclipse interface, Tomcat is started.Preferably, in the described step (203), use the Eclipse4.2 version.

(3) the virtual portable terminal in establishment high in the clouds: adopt Eclipse as the development platform of described virtual portable terminal, the method of utilizing the VMware virtual machine to load the Android-x86 mirror image is finished the establishment of described virtual portable terminal, and arranges accordingly according to the configuration information of the described intelligent mobile terminal parameter to described virtual portable terminal.

Concrete, described step (3) may further comprise the steps:

(301) the VMware virtual machine is installed: open the VMware homepage, select New Virtual Machine, a newly-built virtual machine.

(302) will download good Android-x86-2.3.iso image file and be placed on assigned catalogue, select Installer disc image file, the Android-x86-2.3.iso image file will be loaded.

(303) CPU information and the memory information of described virtual portable terminal are set, preferred, the CPU that described virtual portable terminal is set is double-core, and maximum disk capacity is 16GB.

(304) internetwork connection mode being set is bridge mode.

(305) parameter is clicked the establishment that finish finishes described virtual portable terminal after setting completed, then disk is carried out subregion, starts virtual machine.Preferably, it is 4096.19MB that the main partition capacity is set, and the logical partition capacity is 13078.20MB.

Concrete, described step (3) is further comprising the steps of:

(306) in described virtual portable terminal, access command interface by Alt+F1, input #netcfg order obtains the IP address of described virtual portable terminal, under the windows environment, the Eclipse platform is carried out relevant configuration then, open the command prompt interface at last, input adb connect IP:Port, wherein IP is the address of virtual machine, Port is available port, when connected to IP:Port occurring, then successfully be connected to the described virtual portable terminal in high in the clouds.Preferably, the IP address of described virtual portable terminal is 172.20.15.36, and Port is available port, is made as 5555.

Compare with the mobile phone simulator that existing virtual computer system and Android developer use, the embodiment of the invention has following advantage:

1, the present invention has realized the virtual machine of Android smart mobile phone, and namely this virtual machine has complete mobile phone operating system, operate in the cloud service, and common virtual machine is virtual computer system, can not well serve mobile phone.

2, the mobile phone virtual machine of the present invention's realization has abundant more sufficient soft, hardware resource, can solve developer's simulator when the application program in the relatively more expensive source of exploitation and move problem very slowly, also can in the collapse of physics cell phone system, can return to initial state beyond the clouds.

Description of drawings

Fig. 1 is the general frame figure that the embodiment of the invention provides;

Fig. 2 is the portable terminal experimental situation figure that the embodiment of the invention provides;

Fig. 3 is the ADT path configurations figure that the embodiment of the invention provides;

Fig. 4 is the Android SDK path configurations figure that the embodiment of the invention provides;

Fig. 5 is the establishment AVD virtual unit figure that the embodiment of the invention provides;

Fig. 6 is the high in the clouds experimental situation figure that the embodiment of the invention provides;

Fig. 7 is the Tomcat homepage surface chart that the embodiment of the invention provides;

Fig. 8 is the Tomcat configuration interface figure that the embodiment of the invention provides;

Fig. 9 is that the Tomcat that the embodiment of the invention provides starts surface chart;

Figure 10 is the VMware homepage surface chart that the embodiment of the invention provides;

Figure 11 is the image file loading figure that the embodiment of the invention provides;

Figure 12 is that the processor that the embodiment of the invention provides arranges surface chart;

Figure 13 is the memory setting surface chart that the embodiment of the invention provides;

Figure 14 is that the disk size that the embodiment of the invention provides arranges surface chart;

Figure 15 is that the internetwork connection mode that the embodiment of the invention provides arranges surface chart;

Figure 16 is the establishment virtual machine figure that the embodiment of the invention provides;

Figure 17 is the disk partition figure that the embodiment of the invention provides;

Figure 18 is the mobile phone virtual machine surface chart that the embodiment of the invention provides;

Figure 19 is the mobile phone virtual machine command interface figure that the embodiment of the invention provides;

Figure 20 is windows that the embodiment of the invention the provides prompt surface chart of issuing orders.

Embodiment

In order to make purpose of the present invention, technical scheme and advantage clearer, below in conjunction with embodiment, the present invention is further elaborated.Should be appreciated that described herein only is a part of embodiment of the present invention, rather than whole embodiment.Based on the embodiment among the present invention, the every other embodiment that those of ordinary skills obtain under the prerequisite of not making creative work belongs to the scope of protection of the invention.

One of purpose of the embodiment of the invention provides a kind of system that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal, is used for making virtual portable terminal have complete mobile phone operating system, may operate in the cloud service.For achieving the above object, the system of the virtual portable terminal in high in the clouds of described realization intelligent mobile terminal as shown in Figure 1, comprising:

Concrete, intelligent mobile terminal is the Android smart mobile phone, every mobile phone has different operating system version informations, CPU information and memory information etc.

Concrete, described virtual portable terminal is the mobile phone virtual machine, runs on the Cloud Server, with respect to the local intelligent mobile phone, it has abundant more sufficient soft, hardware resource.In addition, the mobile phone virtual machine can also arrange freely according to the operating system parameter of smart mobile phone, such as operating system version information, CPU information, memory information and software information etc. has been installed, for every physics mobile phone is realized corresponding virtual machine beyond the clouds.

Preferably, as shown in Figure 2, adopt Samsung Galaxy S Advance smart mobile phone as the major equipment of described intelligent mobile terminal, configuration comprises the ST-Ericsson DB8500CPU of a double-core 1024M dominant frequency, the internal memory of 768M and the storage space of 16G, operation Android OS2.3 operating system, and the software development environment of support WiFi and 3G wireless network portable terminal, described software development environment comprises Eclipse IDE for Java EE developers Integrated Development Environment, the JDK1.7 virtual machine, Android SDK14.0 Android software development kit and ADT12.0 Android developing instrument.

The embodiment of the invention utilizes Eclipse as the Software Development Platform of mobile device end, and Eclipse has good plug-in unit support function, different plug-in units is installed can be built into different development environments.The mobile device end is by installing JDK, Android SDK and ADT(Android Development Tools at the Eclipse platform) etc. plug-in unit realize building of Software Development Platform.

Preferably, as shown in Figure 6, the experimental situation in high in the clouds comprises: described high in the clouds uses DELL R410 blade server as key node, be responsible for and being connected of outer net, and manage other common computing nodes, the configuration of described blade server comprises the PCI-Express that SAS hard disk that the internal memory of Intel Xeon E5506CPU, the 8G of one four nuclear 2.13GHZ dominant frequency, three capacity are 300G and plate carry two BCM5716, the Centos5.5-64bits operating system of operation 2.6.18 kernel.

Another purpose of the embodiment of the invention is to provide a kind of method that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal.

Concrete, described step (1) may further comprise the steps:

(102) as shown in Figure 3, under the Eclipse environment, finish the loading of ADT: open Eclipse, click " Help " in the menu → " Install New Software " successively, after ejecting " Available Software " dialog box, click " Add " button, " Add Repository " dialog box appears, click then " Local ", add the path of ADT12.0, click again " OK ", in the dialog box that occurs, choose " Android DDMS " and " Android Development Tools ", click " Install " then, next install according to system prompt.Preferably, in the described step (102), use the ADT12.0 version.

(103) as shown in Figure 4, set Android SDK path: restart Eclipse, enter " windows " → " Preferences " in the menu, after appearance " Preferences " dialog box, click " Browser " and add Android SDK path.

(104) create the AVD virtual unit as shown in Figure 5: open the cmd control desk, carry out android list target and check available platform, according to android creat avd name＜AVD name 〉-target＜id〉form establishment AVD.

(2) the web server in establishment high in the clouds: adopt Eclipse as the development platform of described Web server, Eclipse IDE for Java EE developers Integrated Development Environment, JDK1.7 virtual machine, Tomcat6.0 server, VMware7.14 and Android-x86-2.3.iso image file are installed.High in the clouds examination experimental situation as shown in Figure 6.

Specific to, described step (2) may further comprise the steps:

(202) as shown in Figure 7, start the Tomcat server: for the windows platform, double-click the startup.bat file in the bin path under the Tomcat installation path, behind the startup Tomcat, open the IE browser, at address field input http://localhost:8080.

(203) related with Eclipse: as to open Eclipse, click " Windows " in the menu → " Preferences " successively, eject " Preferences " dialog box, click " Server " → " the Runtime Environments " of left-hand column then successively, after " Add Repository " dialog box occurring, click " Add ", add Apache Tomcat v6.0, as shown in Figure 8, after clicking " OK " again, enter the Eclipse interface, Tomcat is started, as shown in Figure 9.Preferably, in the described step (203), use the Eclipse4.2 version.

Concrete, described step (3) may further comprise the steps:

(301) the VMware virtual machine is installed: open the VMware homepage, as shown in figure 10, select New Virtual Machine, a newly-built virtual machine.

(302) will download good Android-x86-2.3.iso image file and be placed on assigned catalogue, as shown in figure 11, select Installer disc image file, the Android-x86-2.3.iso image file will be loaded.

(303) CPU information and the memory information of described virtual portable terminal are set, preferred, as shown in figure 12, the CPU that described virtual portable terminal is set is double-core, as shown in figure 13, arrange described virtual portable terminal in save as 768MB, as shown in figure 14, maximum disk capacity being set is 16GB.

(304) as shown in figure 15, internetwork connection mode being set is bridge mode.

(305) parameter as shown in figure 16, is clicked the establishment that finish finishes described virtual portable terminal after setting completed, as shown in figure 17 disk is carried out subregion then, starts virtual machine, as shown in figure 18.Preferably, it is 4096.19MB that the main partition capacity is set, and the logical partition capacity is 13078.20MB.

Concrete, described step (3) is further comprising the steps of:

In described virtual portable terminal, access command interface by Alt+F1, as shown in figure 19, input #netcfg order obtains the IP address of described virtual portable terminal, under the windows environment, the Eclipse platform is carried out relevant configuration then, open the command prompt interface at last, as shown in figure 20, input adb connect IP:Port, wherein IP is the address of virtual machine, Port is available port, when connected to IP:Port occurring, then successfully be connected to the described virtual portable terminal in high in the clouds.Preferably, the IP address of described virtual portable terminal is 172.20.15.36, and Port is available port, is made as 5555.

Through the above description of the embodiments, those skilled in the art can be well understood to dimension disclosed by the invention and value and not be intended to be used to strictly be limited to described exact value.On the contrary, except as otherwise noted, each such dimension and value are intended to explain described value and center on the scope that is equal on this value function.

The above only is preferred implementation of the present invention; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention; can also make some improvements and modifications, these improvements and modifications also should be looked protection scope of the present invention.

Claims

1. a system that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal is characterized in that, comprises with the lower part:

2. a kind of system that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal as claimed in claim 1, it is characterized in that, described Web server is as the mutual intermediary of described intelligent mobile terminal and described virtual portable terminal, communicate by WiFi or 3G wireless network and described intelligent mobile terminal, communicate by cable network and described virtual portable terminal again, according to the status information of described intelligent mobile terminal described virtual portable terminal is dynamically arranged.

3. a kind of system that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal as claimed in claim 1 or 2, it is characterized in that, described virtual running of mobile terminal arranges corresponding operating system version information, CPU information, memory information and software information has been installed according to the configuration information of described intelligent mobile terminal on Cloud Server.

4. a kind of system that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal as claimed in claim 1 or 2, it is characterized in that, adopt Samsung Galaxy S Advance smart mobile phone as the major equipment of described intelligent mobile terminal, configuration comprises the ST-Ericsson DB8500CPU of a double-core 1024M dominant frequency, the internal memory of 768M and the storage space of 16G, operation Android OS2.3 operating system, and the software development environment of support WiFi and 3G wireless network portable terminal, described software development environment comprises Eclipse IDE for Java EE developers Integrated Development Environment, the JDK1.7 virtual machine, Android SDK14.0 Android software development kit and ADT12.0 Android developing instrument.

5. a kind of system that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal as claimed in claim 1, it is characterized in that, described high in the clouds uses DELL R410 blade server as key node, be responsible for and being connected of outer net, and manage other common computing nodes, the configuration of described blade server comprises the PCI-Express that SAS hard disk that the internal memory of Intel Xeon E5506CPU, the 8G of one four nuclear 2.13GHZ dominant frequency, three capacity are 300G and plate carry two BCM5716, the Centos5.5-64bits operating system of operation 2.6.18 kernel.

6. a method that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal is characterized in that, may further comprise the steps:

(1) build the Software Development Platform of intelligent mobile terminal: described intelligent mobile terminal is by installing JDK, Android SDK and Android Development Tools at the Eclipse platform, namely the ADT plug-in unit is realized building of described Software Development Platform;

(2) the web server in establishment high in the clouds: adopt Eclipse as the development platform of described Web server, Eclipse IDE for Java EE developers Integrated Development Environment, JDK1.7 virtual machine, Tomcat6.0 server are installed;

7. a kind of method that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal as claimed in claim 6 is characterized in that described step (1) may further comprise the steps:

(101) Android SDK is installed: will download the good direct solution of compressed file bag and be depressed into assigned catalogue, and the absolute path of instrument among the Android SDK added in the system environment variable, enter the command prompt window under the windows, detect SDK by operation android h and whether successfully install;

(102) under the Eclipse environment, finish the loading of ADT: open Eclipse, click " Help " in the menu → " Install New Software " successively, after ejecting " Available Software " dialog box, click " Add " button, " Add Repository " dialog box appears, click then " Local ", add the path of ADT12.0, click again " OK ", in the dialog box that occurs, choose " Android DDMS " and " Android Development Tools ", click then " Install ", next install according to system prompt;

(103) set Android SDK path: restart Eclipse, enter " windows " → " Preferences " in the menu, after appearance " Preferences " dialog box, click " Browser " and add Android SDK path;

8. a kind of method that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal as claimed in claim 7 is characterized in that, in the described step (101), uses Android SDK14.0 version; In the described step (102), use the ADT12.0 version.

9. a kind of method that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal as claimed in claim 6 is characterized in that described step (2) may further comprise the steps:

(201) the Tomcat server is installed: will download the good direct solution of compressed file bag and be depressed into assigned catalogue, then the absolute path of Tomcat is added in the system variable, as follows: CATALINA_HOME:Tomcat absolute path, CATALINA_BASE:Tomcat absolute path, TOMCAT_HOME:Tomcat absolute path, revise classpath again, common in the Tomcat installation directory servlet.jar under the lib be appended among the classpath;

(202) start the Tomcat server: for the windows platform, double-click the startup.bat file in the bin path under the Tomcat installation path, behind the startup Tomcat, open the IE browser, at address field input http://localhost:8080;

(203) related with Eclipse: as to open Eclipse, click " Windows " in the menu → " Preferences " successively, eject " Preferences " dialog box, click " Server " → " the Runtime Environments " of left-hand column then successively, after appearance " Add Repository " dialog box, click " Add ", add Apache Tomcat v6.0, after clicking " OK " again, enter the Eclipse interface, Tomcat is started.

10. a kind of method that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal as claimed in claim 9 is characterized in that, in the described step (201), uses the Tomcat6.0 version; In the described step (203), use the Eclipse4.2 version.

11. a kind of method that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal as claimed in claim 6 is characterized in that described step (3) may further comprise the steps:

(301) the VMware virtual machine is installed: open the VMware homepage, select New Virtual Machine, a newly-built virtual machine;

(302) will download good Android-x86-2.3.iso image file and be placed on assigned catalogue, select Installer disc image file, the Android-x86-2.3.iso image file will be loaded;

(303) CPU information and the memory information of described virtual portable terminal are set;

(304) internetwork connection mode being set is bridge mode;

(305) parameter is clicked the establishment that finish finishes described virtual portable terminal after setting completed, then disk is carried out subregion, starts virtual machine.

12. a kind of method that realizes the virtual portable terminal in high in the clouds of intelligent mobile terminal as claimed in claim 11 is characterized in that described step (3) is further comprising the steps of:

(306) in described virtual portable terminal, access command interface by Alt+F1, input #netcfg order obtains the IP address of described virtual portable terminal, under the windows environment, the Eclipse platform is carried out relevant configuration then, open the command prompt interface at last, input adb connect IP:Port, wherein IP is the address of virtual machine, Port is available port, when connected to IP:Port occurring, then successfully be connected to the described virtual portable terminal in high in the clouds.

13. as claim 11 or 12 described a kind of methods that realize the virtual portable terminal in high in the clouds of intelligent mobile terminal, it is characterized in that in the described step (303), the CPU that described virtual portable terminal is set is double-core, maximum disk capacity is 16GB; In the described step (305), it is 4096.19MB that the main partition capacity is set, and the logical partition capacity is 13078.20MB; In the described step (306), the IP address of described virtual portable terminal is 172.20.15.36, and Port is available port, is made as 5555.