CN103916427B - First mobile communication terminal and communication means, Internet of things system - Google Patents

Abstract

Originally it is bright to be related to a kind of first mobile communication terminal and communication means, Internet of things system, wherein, the first mobile communication terminal, for Internet of Things, Internet of Things includes being connected to multiple sensors and an adapter of a bus, and the first mobile communication terminal includes：The communication unit that can be communicated based on mobile communications network；USB interface, is connected with adapter；For driving USB interface so that USB interface possesses the drive module of OTG functions；First processing units, the USB interface for being driven by drive module is interacted with adapter, controls sensor by adapter, and receive the first data of sensor return；Second processing unit, for sending the first data to the second mobile communication terminal in Internet of Things and server by communication unit.Acquisition terminal special in the prior art is replaced using general mobile communication terminal, is expanded and is used scope, increased the communication interaction between mobile communication terminal, improve the promptness and reliability of communication.

Description

First mobile communication terminal and communication means, Internet of things system

Technical field

The present invention relates to network communication technology field, more particularly to a kind of first mobile communication terminal and communication means, thing Networked system.

Background technology

Urban pipe network management is the important guarantee of life of urban resident, and any leakage, breakage, deactivation can all give the life of resident Work is made troubles, even security incident, is the important application aspect of Internet of Things.In technology of Internet of things sustainable development, pipe Net system is also constantly ripe：Sensor enters wireless by wired, and remote collection terminal develops into multichannel by single channel, and collection is eventually End is upgraded to 3G with the communication mode of server by GPRS, and network is all connected by every acquisition terminal, focuses on a Sensor Network Network is connected by acquisition terminal.

In the entire system, remote collection terminal is crucial, plays a part of to form a connecting link, and New function is constantly past Acquisition terminal is concentrated, and sensor then further reduces, lightens.On the one hand acquisition terminal is communication to be supported, including USB, bluetooth, WIFI, RFID etc..On the other hand using GPRS/3G modules connection Internet, Internet of Things server is accessed.This It is exactly industrial computer that money simplifies, including communication layers, three levels of bus and processing unit in matter.Processing unit again comprising CPU, RAM, FLASH, external interface, communication module etc..

The acquisition terminal can connect the sensor of different communication mode and distinct interface, and acquisition terminal accesses multiple sensings Device just constitutes Sensor Network, realizes stelliform connection topology configuration.Acquisition terminal is uniformly accessed into server by GPRS/3G, also forms one Plant star-like topological structure.

The deficiency that existing Internet of Things scheme exists in technology：

1st, remote terminal exploitation is difficult in maintenance.Sensor access way is different, and the agreement of support is different, embedded development ratio It is more complicated.Embedded system generally existing is safeguarded, scaling difficulty problem is, it is necessary to transfer to former developer to process.Lack unified standard And specification, compatibility and autgmentability are bad.

2nd, communicate to connect single.What communication was taken is that hierarchal manner is connected, and Sensor Network is connected by gateway accessing Internet Be connected to server, all of transmitting-receiving all with server communication.Lack lateral ties, the communication between each acquisition terminal is required for By transit server.If an acquisition terminal will control the sensor of an other acquisition terminal, it is necessary to by server Repeatedly come and go, it is time-consuming to have poorly efficient.

The content of the invention

In order to solve the above-mentioned technical problem, the present invention provides a kind of first mobile communication terminal and communication means, Internet of Things System, it is wide using scope, can be communicated between the mobile communication terminal in Internet of Things, lift the promptness and reliability of communication.

In order to achieve the above object, the technical solution adopted by the present invention is：A kind of first mobile communication terminal, for Internet of Things Net, the Internet of Things includes being connected to multiple sensors and an adapter of a bus, and first mobile communication terminal includes：

The communication unit that can be communicated based on mobile communications network；

USB interface, is connected with the adapter；

For driving the USB interface so that the USB interface possesses the drive module for managing the adapter functions；

First processing units, the USB interface for being driven by the drive module is interacted with the adapter, by institute State adapter and control the sensor, and receive the first data that the sensor is returned；

Second processing unit, for by the communication unit to the second mobile communication terminal kimonos in the Internet of Things Business device sends first data.

Further, also including the 3rd processing unit, for receiving the in the Internet of Things by the communication unit The second data that the sensor of second mobile communication terminal management that two mobile communication terminals send, described is returned.

Further, also including fourth processing unit, for intercepting first data and/or the second data.

Further, also including the 5th processing module, in the second mobile communication terminal in the Internet of Things Between it is asynchronous when synchronize, and/or periodically synchronized with the second mobile communication terminal in the Internet of Things.

Further, also including for the power module for the adapter, multiple sensor powers.

Further, the bus is 485 serial bus.

The present invention also provides a kind of Internet of things system, including：

For multiple sensors of gathered data；

The adapter being connected with the multiple sensor by a bus；

The first above-mentioned mobile communication terminal, for being interacted with the adapter, the biography is controlled by the adapter Sensor, and receive the first data that the sensor is returned；

The server being connected with first communication terminal, for being interacted with first communication terminal.

The present invention also provides a kind of communication means of the first mobile communication terminal, and for Internet of Things, the Internet of Things includes Multiple sensors and an adapter of a bus are connected to, first mobile communication terminal includes that mobile radio communication can be based on The communication unit that network is communicated, the USB interface being connected with the adapter；Perform step as follows：

Drive the USB interface so that the USB interface possesses the management adapter functions；

The USB interface driven by the drive module is interacted with the adapter, is controlled by the adapter described Sensor, and receive the first data that the sensor is returned；

By the communication unit described first is sent to the second mobile communication terminal in the Internet of Things and server Data.

Further, it is further comprising the steps of：

Second movement that the second mobile communication terminal in the Internet of Things sends, described is received by the communication unit The second data that the sensor of communication terminal management is returned.

Further, it is further comprising the steps of：

Intercept first data and/or the second data.

Further, it is further comprising the steps of：

Carried out in the first data or asynchronous the second data with the second mobile communication terminal in the Internet of Things same Step, and/or periodically synchronized with the second mobile communication terminal in the Internet of Things.

The beneficial effects of the invention are as follows：Collection end special in the prior art is replaced using general mobile communication terminal End, expands and uses scope, increased the communication interaction between mobile communication terminal, improves the promptness and reliability of communication Property.

Brief description of the drawings

Fig. 1 represents the first mobile communication terminal structured flowchart of the invention；

Fig. 2 represents Internet of things system structured flowchart of the present invention；

Fig. 3 represents logistics web frame block diagram of the present invention；

Fig. 4 represents the first mobile communication terminal address method flow diagram of the invention；

Fig. 5 is the first mobile communication terminal, the interaction diagrams between adapter, sensor.

Specific embodiment

Structure of the invention and principle are described in detail below in conjunction with accompanying drawing, illustrated embodiment is only used for explaining this hair It is bright, protection scope of the present invention is not limited with this.

As shown in figure 1, a kind of first mobile communication terminal, for Internet of Things, the Internet of Things includes being connected to a bus Multiple sensors and an adapter, first mobile communication terminal includes：

The communication unit that can be communicated based on mobile communications network；

USB interface, is connected with the adapter；

For driving the USB interface so that the USB interface possesses the drive module for managing the adapter functions；

First processing units, the USB interface for being driven by the drive module is interacted with the adapter, by institute State adapter and control the sensor, and receive the first data that the sensor is returned；

Second processing unit, for by the communication unit to the second mobile communication terminal kimonos in the Internet of Things Business device sends first data.

Acquisition terminal special in the prior art is replaced using general mobile communication terminal, is expanded and is used scope, increased Add the communication interaction between mobile communication terminal, improve the promptness and reliability of communication.

It is capable of exploitation, upgrading and the maintenance cost of larger reduction system, three is separated into operation, should using technical grade With.

Preferably, first mobile communication terminal also includes the 3rd processing unit, for being connect by the communication unit Receive the sensor return of second mobile communication terminal management that the second mobile communication terminal in the Internet of Things sends, described Second data.

The information exchange of the mobile communication terminal in Internet of Things is realized, what mobile communication terminal can not only manage itself Other mobile communication terminals in the data is activation of sensor to Internet of Things, can also receive other mobile communication terminals in Internet of Things The data of the sensor of management, realize information sharing, can as required obtain data, convenience and high-efficiency.

The communication between the second mobile communication terminal in first mobile communication terminal and Internet of Things is with short message or multimedia message What mode was transmitted.When short message length exceedes preset byte, sent by the way of multimedia message, by the quantity of few short message and shortening The information exchange time, in the present embodiment, the preset byte is preferably 200Byte, but is not limited to this.

Note data exchange agreement, point 2 class command words, control group 000-099, for realizing controlling the biography on other side's mobile phone Sensor, currently without using.100-199 data processing commands, including send, receive, retransmitting etc..

The form of short message is preferably：Cell-phone number-IMEI- job numbers-subcommand-command code-[parameter]

Second movement that second mobile communication terminal of first mobile communication terminal in Internet of Things is received sends During the second data of the sensor of communication terminal management, the dialog box meeting automatic spring of short message or multimedia message can so influence mobile phone It is normal use, in order to avoid bringing puzzlement for user, preferred first mobile communication terminal is also including the in the present embodiment Four processing units, for intercepting first data and/or the second data.

So that the data of the sensor for receiving are automatically saved in backstage, do not interfere with the normal of mobile communication terminal and use.

Preferably, in the present embodiment, the first mobile communication terminal also include the 5th processing module, for the Internet of Things Synchronized during the second mobile communication terminal time irreversibility in net, and/or periodically with the Internet of Things in second Mobile communication terminal is synchronized.

First mobile communication terminal receives the second data that the second communication terminal in Internet of Things sends simultaneously, can receive the The timestamp that two mobile communication terminals send, when the first mobile communication terminal needs to obtain the number of the second mobile communication terminal again According to when, by the timestamp and the information of the first mobile communication terminal attribute-bit can be represented send to the second mobile communication end End, so that the first mobile communication terminal judges to whether there is new data it according to the timestamp, if any then sending to the One mobile communication terminal.

It is of course also possible to periodically carry out detecting whether that there are new data does not share.

Preferably, the first mobile communication terminal is also included for the power supply mould for the adapter, multiple sensor powers Block.

Relative to the mode of externally fed in the prior art, system power dissipation is reduced.By instant confession, plug and play and carry The mode of high integration realizes environmental protection function.

Preferably, in the present embodiment, the adapter is managed, the electricity of power supply is provided for the adapter, multiple sensors The function of source module is using the first mobile communication terminal realization with OTG functions, i.e. OTG in the first mobile communication terminal Function includes the management adapter, and the function of power supply is provided for the adapter, multiple sensors.

OTG is the abbreviation of USB On-The-Go, is mainly used in the connection between a variety of equipment or mobile device, Carry out data exchange.The development of USB technologies so that PC and peripheral equipment can be incited somebody to action by the manufacturing cost of plain mode, appropriateness Various equipment are linked together, and cell phone apparatus potentially act as the same Host of PC, and various USB interface devices are connected by OTG, and Data exchange is carried out with external equipment.Supporting the mobile phone of OTG includes：The public affairs such as Samsung, LG, HTC, Moto, SONY, Toshiba The series of products of department.Mobile phone with OTG functions, can connect external keyboard, mouse, USB flash disk and mobile hard disk, it is also possible to even Connect sensor.

According to the OTG specifications of USB tissue issues, the output of OTG is that voltage is 5V, and electric current is 100mA, and power is 0.5W, The mobile phone specification of different company is incomplete same, general 5V of voltage or so, current value gap than larger, it is maximum not over 100mA.Power effect determines the power bracket of the peripheral hardware of OTG, it is necessary to be power saving, while also must be low-voltage, this It is relatively difficult in industrial control field, generally, industrial sensor is all external power supply, and voltage is 12/24V, Electric current is 1A or so, and this requires that our sensor needs customization, to adapt to the requirement of voltage and current.

Preferably, the bus is 485 serial bus.

As shown in Fig. 2 the present invention also provides a kind of Internet of things system, including：

For multiple sensors of gathered data；

The adapter being connected with the multiple sensor by a bus；

The first above-mentioned mobile communication terminal, for being interacted with the adapter, the biography is controlled by the adapter Sensor, and receive the first data that the sensor is returned；

The server being connected with first communication terminal, for being interacted with first communication terminal.

Server also typically connects multiple mobile communication terminals, as shown in figure 3, server connects 3 mobile communication terminals, Each mobile communication terminal connects multiple sensors by an adapter.

The data of the sensor collection that mobile communication terminal reception is managed in itself, can also obtain other movements in Internet of Things The data of the sensor collection of communication terminal management, realize data sharing.

As shown in figure 4, the present invention also provides a kind of communication means of the first mobile communication terminal, it is described for Internet of Things Internet of Things includes being connected to multiple sensors and an adapter of a bus, and first mobile communication terminal includes being based on The communication unit that mobile communications network is communicated, the USB interface being connected with the adapter；Perform step as follows：

Drive the USB interface so that the USB interface possesses the management adapter functions；

The USB interface driven by the drive module is interacted with the adapter, is controlled by the adapter described Sensor, and receive the first data that the sensor is returned；

By the communication unit described first is sent to the second mobile communication terminal in the Internet of Things and server Data.

The communication means of the first mobile communication terminal, it is further comprising the steps of：

Second movement that the second mobile communication terminal in the Internet of Things sends, described is received by the communication unit The second data that the sensor of communication terminal management is returned.

The communication means of the first mobile communication terminal, it is further comprising the steps of：

Intercept first data and/or the second data.

The communication means of the first mobile communication terminal, it is further comprising the steps of：

Carried out in the first data or asynchronous the second data with the second mobile communication terminal in the Internet of Things same Step, and/or periodically synchronized with the second mobile communication terminal in the Internet of Things.

The structure and principle of the first mobile phone are introduced by taking mobile phone as an example below.

OTG is the abbreviation of USB On-The-Go, is mainly used in the connection between a variety of equipment or mobile device, Carry out data exchange.The development of USB technologies so that PC and peripheral equipment can be incited somebody to action by the manufacturing cost of plain mode, appropriateness Various equipment are linked together, and cell phone apparatus potentially act as the same Host of PC, and various USB interface devices are connected by OTG, and Data exchange is carried out with external equipment.Supporting the mobile phone of OTG includes：The public affairs such as Samsung, LG, HTC, Moto, SONY, Toshiba The series of products of department.Mobile phone with OTG functions, can connect external keyboard, mouse, USB flash disk and mobile hard disk, it is also possible to even Connect sensor.

According to the OTG specifications of USB tissue issues, the output of OTG is that voltage is 5V, and electric current is 100mA, and power is 0.5W, The mobile phone specification of different company is incomplete same, general 5V of voltage or so, current value gap than larger, it is maximum not over 100mA.Power effect determines the power bracket of the peripheral hardware of OTG, it is necessary to be power saving, while also must be low-voltage, this It is relatively difficult in industrial control field, generally, industrial sensor is all external power supply, and voltage is 12/24V, Electric current is 1A or so, and this requires that our sensor needs customization, to adapt to the requirement of voltage and current.

Android phone is based on linux system, to adhere to Linux and increase income objective, and major cellular telephone companies are on Linux bases On, the bottom of customization is also all increased income, and has corresponding download in company's site, for learning and studying.Android phone Architecture be divided into four layers, be respectively kernel, Runtime Library, application framework, application.Kernel be realize thread/process, internal memory, Communication and various device drives.Runtime Library is that C storehouses, 3D storehouses, database, safety etc. are using offer calling layer.

General mobile phone is not drive the function of USB interface, it is necessary to add into, and the work to be done has two parts, (1) USB interface Driver Development, the conversion chip of purchase the driver under Linux and windows typically can be all provided, it is necessary to Certain modification and adaptation work is carried out for the mobile phone firmware downloaded.(2) driver deployment is entered into mobile phone firmware, is replaced Change the firmware of original mobile phone.By after this 2 steps, mobile phone can just drive USB- serial port adapters.This is also that the system is related to And the unique place developed to embedded driving.

1st, USB interface driver

USB device is divided into configuration, interface and the level of port three, and USB interface is exactly a port, that is, a work( Energy.USB can be divided into equipment, three levels of logical sum bus in logic from communication angle, and all of communication is all in three layers Circulated between secondary.The operation of USB interface is also to use constituent instruments form, that is, by kernels such as Open, read, write Order, is operated, and is similar to file process.The exploitation of driving is divided into two parts：One is the loading and unloading for driving, one It is the realization of open, read, write and close function.

The loading of driving and unloading：

Load and unloading core be realize respectively static int_init_usb_serial_init (void) and 2 modules of static void_exit_usb_serial_exit (void).Wherein loading module divides following steps

(1), storage allocation,

(2), the pointer of usb_serial structures is empty,

(3) bus, is registered,

(4) usb_serial_driver structures, are initialized, are assigned and is driven title, device name, major device number,

(5), registration usb_serial drives.

The operation of unloading in contrast, is not repeated herein explanation.

Each function is realized

In the structure of usb_serial_driver, the letters such as create, open, write, close, destroy are defined Number, is accomplished by realizing one by one here.Illustrated by taking open as an example below.

(1), serial pointers point to usb_serial_get_index () function to apply for usb_serial structures,

(2) port numbers, are obtained,

(3), by port numbers, port structures are obtained, semaphore adds 1

(4) kernel open functions, are called

(5) port, is discharged, semaphore subtracts 1

Other 5 functions are similar to processing method, and real data processing is completed by USB- serial port chips.

2nd, mobile phone firmware upgrading

Firmware upgrade is exactly the operation of brush machine, mainly includes three steps：

According to the model and build number of mobile phone, corresponding kernel program is downloaded；

Kernel option is reconfigured, the driving increase of USB interface is come in, the new kernel mirror image file of packing generation；

Start mobile phone and enter brush machine pattern, access PC, firmware is write to mobile phone by the instrument of PC.With regard to energy after system reboot Use.

It should be noted that upgrading kernel, Runtime Library before the kernel of android mobile phones is not interfered with, using frame Three levels of frame and application.Whether upgrade successfully, all without the application for having influence on installation.

Firmware generating process is as follows：

(1), make disclean, remove all intermediate files under kernel catalogue

(2), make menuconfig, by layer menu select need kernel module, USB- serial port modules be exactly This stage adds

(3), make zImage, generate customized firmware

Brush machine is prior art, is repeated no more.

Lower mask body introduces the communication process in the Internet of Things of mobile phone application：

Self-inspection after handset starting, loads USB- serial port drives to kernel, and start the application of monitoring mobile phone.Mobile phone connection is suitable After orchestration and sensor, provide power supply by mobile phone and support, adapter and sensor start self-inspection.Mobile phone waits connection request, passes Sensor is all articulated on serial bus as host node, after completing initialization, is issued by connection request.Perform step as follows：

By setting up connection between adapter and sensor；

Solicited message with sensor identification is sent by adapter,

The information that the sensor corresponding with the sensor identification sends is received by adapter；

Described information is sent to server.

Preferably, it is described by setting up connection between adapter and sensor, comprise the following steps：

The connection request that sensor sends is received by adapter；

Configuration information reading order is sent to the sensor with the first mark by adapter；

The first data including its configuration information that there is the sensor of the first mark to send are received by adapter；

The configuration information of sensor of first data acquisition with the first mark is parsed, and by adapter to having The sensor of the first mark sends confirmation so that the sensor returns to confirmation to be successfully established mobile phone and have first Connection between the sensor of mark；

Wherein, in producer, numbering, type, parameter of the configuration information including the sensor with the first mark Plant or several information.

The ID of the preferred sensor of first mark.

It is articulated in bus in view of be up to 10 sensors, using taking 15 seconds for the cycle, poll reads once each The data of individual sensor.After having sent data, data to be received are waited, after successfully reading, continued next.

So, a sensor is just accessed into Sensor Network.In actual connection procedure, may be due to connection loosening, mobile phone Electric power is not enough, sensor accesses the reason such as excessive and leads to not connection, removes factors above, connects into power more than 95%.By Then half-duplex operation, multiple sensor-levels in conjunction with when access, all conflict can be produced as host node, while this when will keep away Exempt to read data, reduction may cause conflict.

Preferably, when mobile phone is by carrying out information exchange between adapter and sensor, if mobile phone send configuration information Order, and sensor does not react in 1 second, resends configuration information reading order, the number of times for repeating then is defaulted as more than 3 times The sensor has dropped out network.

Adapter is extracted from USB interface/inserted, OS（Positioned at the operating system of server kind）Event message can be sent, Drive module in mobile phone receives message and makes corresponding treatment.

Interaction flow between mobile phone, adapter, sensor is as shown in Figure 5.

Preferably, it is further comprising the steps of：

The information of sensor collection, the second data is activation of the second mark to other mobile phones will be included so that receive described Other mobile phones of second data return to the 3rd data of the information and the 3rd mark that include the sensor collection of its memory storage, wherein Second mark represents an attribute information for mobile phone, and the 3rd mark represents the attribute information of other mobile phones.

Second mark is preferably mobile phone（Mobile phone）IMEI（Identification）.

Data exchange is carried out by short message/multimedia message between mobile phone, short message is the basic function of mobile phone, any time, it is any Place can receive and dispatch, with simple to operate, the characteristics of time delay is short.It is convenient and reliable compared with GPRS and 3G signals on.

The sensor information connected on all of mobile phone is shared, and is the biography that wherein one mobile phone is checked on other mobile phones Sensor information, there is provided may.Synchronous connection can be actively initiated when needing, it is also possible to periodic synchronization.On having The process of mobile phone interaction in Internet of Things is stated, the relation of equity is just formed between mobile phone.

Preferably, it is further comprising the steps of：

To include that information, the second mark, second data is activation of very first time stamp of sensor collection, to other mobile phones, make Other mobile phones that second data must be received return to information, the 3rd mark and second for including the sensor of its memory storage and gathering 3rd data of timestamp, wherein second mark represents an attribute information for mobile phone, the 3rd mark represents other The attribute information of mobile phone.

The above is present pre-ferred embodiments, it is noted that to those skilled in the art, is not departing from this On the premise of inventing the principle, some improvements and modifications can also be made, these improvements and modifications also should be regarded as guarantor of the present invention Shield scope.

Claims (9)

1. a kind of first mobile communication terminal, it is characterised in that for Internet of Things, the Internet of Things includes being connected to a bus Multiple sensors and an adapter, first mobile communication terminal include：

The communication unit that can be communicated based on mobile communications network；

USB interface, is connected with the adapter；

For driving the USB interface so that the USB interface possesses the drive module for managing the adapter functions；

First processing units, the USB interface for being driven by the drive module is interacted with the adapter, by described suitable Orchestration controls the sensor, and receives the first data that the sensor is returned；

Second processing unit, for by the communication unit to the second mobile communication terminal and server in the Internet of Things Send first data；

5th processing module, for being synchronized in the second mobile communication terminal time irreversibility in the Internet of Things, And/or periodically synchronized with the second mobile communication terminal in the Internet of Things.

2. the first mobile communication terminal according to claim 1, it is characterised in that also including the 3rd processing unit, be used for The transmission of the second mobile communication terminal, second mobile communication terminal in the Internet of Things is received by the communication unit The second data that the sensor of management is returned.

3. the first mobile communication terminal according to claim 2, it is characterised in that also including fourth processing unit, be used for Intercept first data and/or the second data.

4. the first mobile communication terminal according to claim any one of 1-3, it is characterised in that also including for for described The power module of adapter, multiple sensor powers.

5. the first mobile communication terminal according to claim any one of 1-3, it is characterised in that the bus is 485 strings Mouth bus.

6. a kind of Internet of things system, it is characterised in that including：

For multiple sensors of gathered data；

The adapter being connected with the multiple sensor by a bus；

The first mobile communication terminal described in claim any one of 1-5, for being interacted with the adapter, by the adaptation Device controls the sensor, and receives the first data that the sensor is returned；

The server being connected with first mobile communication terminal, for being interacted with first mobile communication terminal.

7. a kind of communication means of the first mobile communication terminal, for Internet of Things, the Internet of Things includes being connected to a bus Multiple sensors and an adapter, first mobile communication terminal include that what can be communicated based on mobile communications network is led to Letter unit, the USB interface being connected with the adapter；Characterized in that, it is as follows to perform step：

Drive the USB interface so that the USB interface possesses the function of managing the adapter；

Interacted with the adapter by the USB interface, the sensor is controlled by the adapter, and receive the biography The first data that sensor is returned；

First data are sent to the second mobile communication terminal in the Internet of Things and server by the communication unit；

Methods described also includes：

Synchronized in the first data or asynchronous the second data with the second mobile communication terminal in the Internet of Things, And/or periodically synchronized with the second mobile communication terminal in the Internet of Things.

8. the first mobile communication terminal address method according to claim 7, it is characterised in that further comprising the steps of：

The transmission of the second mobile communication terminal, second mobile communication in the Internet of Things is received by the communication unit The second data that the sensor of terminal management is returned.

9. the first mobile communication terminal address method according to claim 8, it is characterised in that further comprising the steps of：

Intercept first data and/or the second data.