CN104580744B - The control method of terminal, the control device of terminal and terminal - Google Patents

Abstract

The present invention proposes a terminal control method, a terminal control device, and a terminal. The terminal is provided with a plurality of card slots and installed with a plurality of operating systems. The method includes: The identification cards in the card slots are bound to the multiple operating systems, wherein the identification cards are bound to the operating systems in one-to-one correspondence; monitoring of each operating system in the multiple operating systems is performed. Running state; when the running state of each operating system in the plurality of operating systems is normal, maintain the circuit connection between each of the operating systems and the identification card bound to each of the operating systems, and Disconnect the electrical connections between each of the operating systems and other unbonded badges. Through the technical solution of the present invention, the information security of the identification card can be guaranteed, and the identification card in the crashed system can be used normally, thereby improving user experience.

Description

Terminal control method, terminal control device, and terminal

technical field

The present invention relates to the technical field of terminals, and in particular, to a terminal control method, a terminal control device, and a terminal.

Background technique

With the widespread application of terminals, terminal users have more and more diversified means of operation, and there are more and more ways to protect terminal information security. In the existing technology, there is at least one identification card in a terminal system, A system can check the data in all identification cards, so the security of the data in the identification cards cannot be guaranteed, and if the system of the terminal is abnormal or crashes, all the identification cards in the terminal will be inaccessible. normal use.

Therefore, there is a need for a new technical solution that can ensure the security of identity card information, enable the normal use of the identity card in the crashed system, and improve user experience.

Contents of the invention

Based on the above problems, the present invention proposes a new technical solution, which can ensure the security of identity card information, enable the normal use of the identity card in the crashed system, and improve user experience.

In view of this, the present invention proposes a terminal control method, the terminal is provided with a plurality of card slots, and a plurality of operating systems are installed, the method includes: identifying the identity in the plurality of card slots The card is bound to the multiple operating systems, wherein the identity card is bound to the operating systems in one-to-one correspondence; the running status of each operating system in the multiple operating systems is monitored; when the multiple operating systems When the operating status of each operating system in the operating systems is normal, maintain the circuit connection between each operating system and the identity identification card bound to each operating system, and disconnect each operating system Electrical connections between the system and other unbonded identification cards.

In this technical solution, the identification card in the terminal is bound to the operating system in one-to-one correspondence, so that one operating system corresponds to only one identification card, and when each operating system is running normally, the operating system and the operating system are kept The circuit connection between the identification card bound with it, and the circuit connection between the operating system and other unbound identification cards are disconnected, so that different operating systems and identification cards can be isolated from each other, In this way, the security of the identity card information can be effectively guaranteed.

In the above technical solution, preferably, it further includes: when the running status of any operating system in the multiple operating systems is abnormal, disconnecting the operating system and binding with the operating system and establishing a circuit connection between the target ID card and other operating systems.

In this technical solution, since there is one-to-one correspondence between multiple operating systems and the bound identification cards, it can be regarded as a single-card single-standby system. When a system crashes or an abnormality occurs, the identification card of the system can It is temporarily bound to other normal systems for use, and the normal system temporarily becomes a dual-card dual-standby system. In this way, the normal use of the identification card in the abnormal system can be guaranteed, and the user experience is improved.

In the above technical solution, preferably, it also includes: monitoring whether the running status of any operating system returns to normal; when the running status of any operating system returns to normal, re-establishing the disconnecting the circuit connection between the target ID card and disconnecting the circuit connection between the target ID card and the other operating systems.

In this technical scheme, if the crashed or abnormal system returns to normal, the system will re-establish the circuit connection with the corresponding identification card, and disconnect the circuit connection between the identification card and other operating systems In this way, when each system is in a normal operating state, it can effectively ensure that only one corresponding system of the identification card operates, further ensuring the information security of the identification card.

In the above technical solution, preferably, monitoring the operating status of each operating system in the plurality of operating systems specifically includes: sending instructions to each operating system, and recording the response time of each operating system; When the response time of the operating system is greater than or equal to the preset response time, it is determined that the operating state of any operating system is abnormal; otherwise, it is determined that the operating state of any operating system is normal.

In this technical solution, it is judged whether the system is in a crash state through the performance of the system. Specifically, an instruction is sent to each system in the multi-system. If a system does not respond within the specified time, the system can be judged Temporarily crashed. Certainly, those skilled in the art should understand that the method for judging the running status of the operating system includes but is not limited to judging the response time.

In the above technical solution, preferably, further comprising: setting the preset response time according to the received setting command.

In this technical solution, users or manufacturers can set the response time according to individual needs, so as to meet different needs of different users or different manufacturers, and improve user experience.

According to another aspect of the present invention, a terminal control device is also proposed, the terminal is provided with multiple card slots, and multiple operating systems are installed, the device includes: a binding unit, the multiple The identification cards in the card slots are bound to the plurality of operating systems, wherein the identification cards are bound to the operating systems in one-to-one correspondence; the monitoring unit monitors each of the operating systems in the plurality of operating systems. The running state of the operating system; the processing unit, when the running state of each operating system in the multiple operating systems is normal, maintain the relationship between each operating system and the identity card bound to each operating system and disconnect the circuit connections between each operating system and other unbound identification cards.

In this technical solution, the identification card in the terminal is bound to the operating system in one-to-one correspondence, so that one operating system corresponds to only one identification card, and when each operating system is running normally, the operating system and the operating system are kept The circuit connection between the identification card bound with it, and the circuit connection between the operating system and other unbound identification cards are disconnected, so that different operating systems and identification cards can be isolated from each other, In this way, the security of the identity card information can be effectively guaranteed.

In the above technical solution, preferably, the processing unit is further configured to: disconnect any operating system and any A circuit connection between the target identity recognition cards bound to an operating system, and establishing a circuit connection between the target identity recognition card and other operating systems.

In this technical solution, since there is one-to-one correspondence between multiple operating systems and the bound identification cards, it can be regarded as a single-card single-standby system. When a system crashes or an abnormality occurs, the identification card of the system can It is temporarily bound to other normal systems for use, and the normal system temporarily becomes a dual-card dual-standby system. In this way, the normal use of the identification card in the abnormal system can be guaranteed, and the user experience is improved.

In the above technical solution, preferably, the monitoring unit is further configured to: monitor whether the operating state of any operating system returns to normal; the processing unit is also configured to: restore the operating state of any operating system Normally, re-establish the circuit connection between the any operating system and the target identity recognition card, and disconnect the circuit connection between the target identity recognition card and the other operating systems.

In this technical scheme, if the crashed or abnormal system returns to normal, the system will re-establish the circuit connection with the corresponding identification card, and disconnect the circuit connection between the identification card and other operating systems In this way, when each system is in a normal operating state, it can effectively ensure that only one corresponding system of the identification card operates, further ensuring the information security of the identification card.

In the above technical solution, preferably, the monitoring unit is specifically configured to: send instructions to each operating system, and record the response time of each operating system; the response time of any operating system is greater than or equal to the preset response time, it is determined that the operating state of any operating system is abnormal; otherwise, it is determined that the operating state of any operating system is normal.

In this technical solution, it is judged whether the system is in a crash state through the performance of the system. Specifically, an instruction is sent to each system in the multi-system. If a system does not respond within the specified time, the system can be judged Temporarily crashed. Certainly, those skilled in the art should understand that the method for judging the running status of the operating system includes but is not limited to judging the response time.

In the above technical solution, preferably, further comprising: a setting unit, configured to set the preset response time according to the received setting command.

In this technical solution, users or manufacturers can set the response time according to individual needs, so as to meet different needs of different users or different manufacturers, and improve user experience.

According to yet another aspect of the present invention, a terminal is also proposed, including: multiple card slots; multiple operating systems; and the terminal control device according to any one of the above technical solutions.

Through the technical solution of the present invention, the identification card in the terminal is bound to the operating system in one-to-one correspondence, so that one operating system corresponds to only one identification card, and when each operating system is running normally, the operating system is kept and disconnect the circuit connection between the operating system and other unbound identification cards, so that different operating systems and identification cards can be isolated from each other , so that the security of the identity card information can be effectively guaranteed, and in addition, when an operating system crashes, the identity card in the crashed operating system is bound to another operating system, so that the identity card of the operating system It can still be used normally in another operating system, thereby improving the user experience.

Description of drawings

FIG. 1 shows a flowchart of a method for controlling a terminal according to an embodiment of the present invention;

Fig. 2 shows a block diagram of a terminal control device according to an embodiment of the present invention;

Fig. 3 shows a block diagram of a terminal according to an embodiment of the present invention;

FIG. 4 shows a schematic diagram of a dual system architecture according to an embodiment of the present invention;

Fig. 5 shows a schematic diagram of the binding manner between the identification card and the system according to an embodiment of the present invention;

FIG. 6 shows a schematic structural diagram of a terminal according to an embodiment of the present invention;

Fig. 7 shows a specific flowchart of a method for controlling a terminal according to an embodiment of the present invention.

detailed description

In order to have a clearer understanding of the above objects, features and advantages of the present invention, the present invention will be further described in detail below in conjunction with the accompanying drawings and specific embodiments. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments can be combined with each other.

In the following description, many specific details are set forth in order to fully understand the present invention. However, the present invention can also be implemented in other ways different from those described here. Therefore, the protection scope of the present invention is not limited by the specific details disclosed below. EXAMPLE LIMITATIONS.

Fig. 1 shows a flowchart of a method for controlling a terminal according to an embodiment of the present invention.

As shown in FIG. 1 , the terminal control method according to the embodiment of the present invention includes: step 102, binding the identification cards in the multiple card slots with the multiple operating systems, wherein the The identification card is bound to the operating system in one-to-one correspondence; step 104, monitor the operating status of each operating system in the plurality of operating systems; step 106, when the operating status of each operating system in the plurality of operating systems When the status is normal, maintain the circuit connection between each operating system and the identification card bound with each operating system, and disconnect each operating system and other unbound identification cards the circuit connection between.

In this technical solution, the identification card in the terminal is bound to the operating system in one-to-one correspondence, so that one operating system corresponds to only one identification card, and when each operating system is running normally, the operating system and the operating system are kept The circuit connection between the identification card bound with it, and the circuit connection between the operating system and other unbound identification cards are disconnected, so that different operating systems and identification cards can be isolated from each other, In this way, the security of the identity card information can be effectively guaranteed.

In the above technical solution, preferably, it further includes: when the running status of any operating system in the multiple operating systems is abnormal, disconnecting the operating system and binding with the operating system and establishing a circuit connection between the target ID card and other operating systems.

In this technical solution, since there is one-to-one correspondence between multiple operating systems and the bound identification cards, it can be regarded as a single-card single-standby system. When a system crashes or an abnormality occurs, the identification card of the system can It is temporarily bound to other normal systems for use, and the normal system temporarily becomes a dual-card dual-standby system. In this way, the normal use of the identification card in the abnormal system can be guaranteed, and the user experience is improved.

In the above technical solution, preferably, it also includes: monitoring whether the running status of any operating system returns to normal; when the running status of any operating system returns to normal, re-establishing the disconnecting the circuit connection between the target ID card and disconnecting the circuit connection between the target ID card and the other operating systems.

In this technical scheme, if the crashed or abnormal system returns to normal, the system will re-establish the circuit connection with the corresponding identification card, and disconnect the circuit connection between the identification card and other operating systems In this way, when each system is in a normal operating state, it can effectively ensure that only one corresponding system of the identification card operates, further ensuring the information security of the identification card.

In the above technical solution, preferably, monitoring the operating status of each operating system in the plurality of operating systems specifically includes: sending instructions to each operating system, and recording the response time of each operating system; When the response time of the operating system is greater than or equal to the preset response time, it is determined that the operating state of any operating system is abnormal; otherwise, it is determined that the operating state of any operating system is normal.

In this technical solution, it is judged whether the system is in a crash state through the performance of the system. Specifically, an instruction is sent to each system in the multi-system. If a system does not respond within the specified time, the system can be judged Temporarily crashed. Certainly, those skilled in the art should understand that the method for judging the running status of the operating system includes but is not limited to judging the response time.

In the above technical solution, preferably, further comprising: setting the preset response time according to the received setting command.

In this technical solution, users or manufacturers can set the response time according to individual needs, so as to meet different needs of different users or different manufacturers, and improve user experience.

Fig. 2 shows a block diagram of a terminal control device according to an embodiment of the present invention.

As shown in FIG. 2 , according to a terminal control device 200 according to an embodiment of the present invention, the terminal is provided with multiple card slots and installed with multiple operating systems, and the device includes: a binding unit 202 that binds the The identification cards in the plurality of card slots are bound to the plurality of operating systems, wherein the identity identification cards are bound to the operating systems in one-to-one correspondence; the monitoring unit 204 monitors the plurality of operating systems The running state of each operating system in the plurality of operating systems; the processing unit 206, when the running state of each operating system in the multiple operating systems is normal, maintain each of the operating systems and the binding of each operating system circuit connections between identification cards, and disconnect circuit connections between each of said operating systems and other unbound identification cards.

In this technical solution, the identification card in the terminal is bound to the operating system in one-to-one correspondence, so that one operating system corresponds to only one identification card, and when each operating system is running normally, the operating system and the operating system are kept The circuit connection between the identification card bound with it, and the circuit connection between the operating system and other unbound identification cards are disconnected, so that different operating systems and identification cards can be isolated from each other, In this way, the security of the identity card information can be effectively guaranteed.

In the above technical solution, preferably, the processing unit 206 is further configured to: disconnect any operating system from the operating system and the A circuit connection between target identity recognition cards bound to any operating system, and establishing a circuit connection between the target identity recognition card and other operating systems.

In this technical solution, since there is one-to-one correspondence between multiple operating systems and the bound identification cards, it can be regarded as a single-card single-standby system. When a system crashes or an abnormality occurs, the identification card of the system can It is temporarily bound to other normal systems for use, and the normal system temporarily becomes a dual-card dual-standby system. In this way, the normal use of the identification card in the abnormal system can be guaranteed, and the user experience is improved.

In the above technical solution, preferably, the monitoring unit 204 is also used to: monitor whether the running state of any operating system returns to normal; the processing unit 206 is also used to: When the state returns to normal, re-establish the circuit connection between the any operating system and the target identity recognition card, and disconnect the circuit connection between the target identity recognition card and the other operating systems.

In this technical scheme, if the crashed or abnormal system returns to normal, the system will re-establish the circuit connection with the corresponding identification card, and disconnect the circuit connection between the identification card and other operating systems In this way, when each system is in a normal operating state, it can effectively ensure that only one corresponding system of the identification card operates, further ensuring the information security of the identification card.

In the above technical solution, preferably, the monitoring unit 204 is specifically configured to: send instructions to each operating system, and record the response time of each operating system; the response time of any operating system is greater than or equal to the preset If the response time is less than the response time, it is determined that the operating state of any one of the operating systems is abnormal; otherwise, it is determined that the operating state of any operating system is normal.

In this technical solution, it is judged whether the system is in a crash state through the performance of the system. Specifically, an instruction is sent to each system in the multi-system. If a system does not respond within the specified time, the system can be judged Temporarily crashed. Certainly, those skilled in the art should understand that the method for judging the running status of the operating system includes but is not limited to judging the response time.

In the above technical solution, preferably, further comprising: a setting unit 208, configured to set the preset response time according to the received setting command.

In this technical solution, users or manufacturers can set the response time according to individual needs, so as to meet different needs of different users or different manufacturers, and improve user experience.

Fig. 3 shows a block diagram of a terminal according to an embodiment of the present invention.

As shown in FIG. 3 , a terminal 300 according to an embodiment of the present invention includes the terminal control device 200 of any embodiment of the second aspect above, multiple card slots, and multiple operating systems. Wherein, the terminal 300 has the same technical effect as that of the terminal control apparatus 200, which will not be repeated here.

Taking the dual system (system 1 and system 2) and the dual card terminal (card 1 and card 2) as examples below, the technical solution of the present invention will be described in detail.

Fig. 4 shows a schematic diagram of a dual system architecture according to an embodiment of the present invention.

As shown in Figure 4, according to the dual-system framework of the embodiment of the present invention, the dual-system terminal has two systems running on the terminal, which are called system 1 and system 2 respectively, and each of the two systems supports a mobile phone card (SIM: Subscriber Identity Module, customer identity module, UIM: User Identity Module, user identity module). These two systems operate independently, but also share hardware resources, such as modem (modem), speakers, and so on. The orderly operation of the two systems requires a module that jointly manages them. This management module is called System 3. System 3 is invisible to users. To users, this is a dual-system terminal. In the communication framework of the system, modem and RIL (RadioInterface Layer, radio connection layer) are shared, and Frameworks (framework) and communication applications are independent. Under normal conditions, card 1 and card 2 belong to system 1 and system 2 respectively, and they do not interfere with each other and are independent of each other.

Fig. 5 shows a schematic diagram of a binding manner between a card and a system according to an embodiment of the present invention.

As shown in Figure 5, according to the binding method between the card and the system according to the embodiment of the present invention, card 1 and card 2 are respectively bound to system 1 and system 2, and the so-called real binding of solid lines 1 and 2 refers to the card The card slots of card 1 and card 2 are connected to system 1 and system 2 respectively, and the circuits are connected. Card 1 and card 2 can work normally in system 1 and system 2 respectively.

Virtual connections are used between card 1 and system 2, and between card 2 and system 1. Dotted lines 3 and 4 indicate that there are circuits between the card slot of card 1 and system 2, and between the card slot of card 2 and system 1. But under normal conditions, these two circuits are disconnected, and only when a certain system crashes, these two circuits may be connected. For example, when system 1 crashes, circuit 3 in the figure will be connected, and then card 1 will be bound to system 2, and the binding between them will become real binding.

Fig. 6 shows a schematic structural diagram of a terminal according to an embodiment of the present invention.

As shown in Figure 6, the terminal according to the embodiment of the present invention includes card 1, card 2, system 1 and system 2, and a monitoring module 602 (equivalent to monitoring unit 204). When a problem occurs in a certain system, the monitoring module 602 can Timely judge whether the system is in a crash state, if the system is in a crash state, the monitoring module 602 needs to open the card slot of the system to connect with the circuit of another system to complete the binding of the card with another system. When the system recovers from the collapsed state to the normal state, the monitoring module 602 is responsible for closing the opened virtual connection, thereby restoring the independence of the cards of the two systems.

Judging whether a system is in a crash state can be judged by the performance of the system, such as response time. The monitoring module 602 sends an instruction to the two systems, and if a certain system does not respond within a specified time, it can be judged that the system is temporarily in a crash state.

Fig. 7 shows a specific flowchart of a method for controlling a terminal according to an embodiment of the present invention.

As shown in FIG. 7, the terminal control method according to the embodiment of the present invention includes:

Step 702, record the response time of system 1 and system 2.

Step 704, judge whether the response time of system 1 is over, to judge whether the system is running normally, if the judgment result is yes, go to step 706, if the judgment result is no, go to step 718. Specifically, when the response time of any operating system is greater than or equal to the preset response time, it is determined that the operating state of the operating system is abnormal; otherwise, it is determined that the operating state of the operating system is normal.

Step 706, open the connection line 3 in FIG. 5 . Specifically, when it is determined that the operation status of the operating system of system 1 is abnormal, the circuit connection between system 1 and the identification card bound to system 1 is disconnected, and the circuit connection between the identification card and system 2 is established.

Step 708, the system 2 is running with dual cards and dual standby.

Step 710, detecting whether the system 1 is back to normal, specifically, the terminal sends a signal to the system 1, and records the response time of the system 1.

Step 712, judge whether the system 1 is restored, if the judgment result is no, return to step 710, if the judgment result is yes, enter step 714.

Step 714, disconnect the connecting line 3 in Fig. 5 . Specifically, when the operating state of system 1 returns to normal, re-establish the circuit connection between system 1 and the identification card corresponding to system 1, and disconnect the circuit connection between the identification card and other operating systems.

Step 716, when the system is running normally, return to step 702.

Step 718, judge whether the response of system 2 has timed out, if the judgment result is no, return to step 702, if the judgment result is yes, enter step 720; specifically, since the response of system 1 has not timed out, system 1 is running normally, and system 2 responds If timeout occurs, the system 2 runs abnormally, and the monitoring module in the system records the response time of the system 1 and the system 2.

Step 720, open the connection line 4 in Figure 5, specifically, when it is determined that the operating state of the system 2 operating system is abnormal, disconnect the circuit connection between the system 2 and the identification card bound to the system 2, and establish the identity The circuit connection between the identification card and the system 1.

Step 722, system 1 is running with dual cards and dual standby.

Step 724, detecting whether the system 2 is back to normal, specifically, the terminal sends a signal to the system 2, and records the response time of the system 2.

Step 726, judge whether the system 2 is restored, if the judgment result is no, return to step 724, if the judgment result is yes, enter step 728.

Step 728, disconnect the connecting line 4 in FIG. 5 . Specifically, when the operating state of the system 2 returns to normal, the circuit connection between the system 2 and the identification card corresponding to the system 2 is re-established, and the circuit connection between the identification card and other operating systems is disconnected.

The above describes the technical solution of the present invention in detail in conjunction with the accompanying drawings. Through the technical solution of the present invention, the identification card in the terminal is bound to the operating system in one-to-one correspondence, so that one operating system only corresponds to one identification card, and When each operating system is functioning normally, maintain the electrical connection between the operating system and the identification card bound to it, and disconnect the electrical connection between the operating system and other unbound identification cards, so that different The operating system and the identification card can be isolated from each other, so that the information security of the identification card can be effectively guaranteed. In addition, when one operating system crashes, the identification card in the crashed operating system is bound to another In one operating system, the identity card of this operating system can still be used normally in another operating system, thereby improving the user experience.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. For those skilled in the art, the present invention may have various modifications and changes. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present invention shall be included within the protection scope of the present invention.

Claims (9)

1. a kind of control method of terminal, it is characterised in that multiple draw-in grooves are provided with the terminal, and are provided with multiple operations System, the control method includes：

Identification card in the multiple draw-in groove and the multiple operating system are bound, wherein, the identification Card and the operating system correspond binding；

Monitor the running status of each operating system in the multiple operating system；

When the running status of each operating system in the multiple operating system is normal, keep each described operating system and With described each operating system bind identification card between circuit be connected, and disconnect described in each operating system and other Circuit connection between unbound identification card；

When the running status of any operation system in the multiple operating system is for exception, any operation system is disconnected And be connected with the circuit between the target identities identification card of any operation system binding, and set up the target identities identification Circuit connection between card and other operating systems.

2. the control method of terminal according to claim 1, it is characterised in that also include：

Whether the running status for monitoring any operation system recovers normal；

When the running status of any operation system recovers normal, any operation system and the target are re-established Circuit connection between identification card, and disconnect the circuit between the target identities identification card and described other operating systems Connection.

3. the control method of terminal according to claim 1 and 2, it is characterised in that in the multiple operating system of monitoring The running status of each operating system, specifically includes：

Described each operating system is sent a command to, and records the response time of each operating system；

When the response time of any operating system the default response time is more than or equal to, the fortune of any operation system is judged Row state is abnormal, otherwise, it is determined that the running status of any operation system is normal.

4. the control method of terminal according to claim 3, it is characterised in that also include：

According to the setting command for receiving, the default response time is set.

5. a kind of control device of terminal, it is characterised in that multiple draw-in grooves are provided with the terminal, and are provided with multiple operations System, the control device includes：

Binding unit, the identification card in the multiple draw-in groove and the multiple operating system are bound, wherein, it is described Identification card and the operating system correspond binding；

Monitoring unit, monitors the running status of each operating system in the multiple operating system；

Processing unit, when the running status of each operating system in the multiple operating system is normal, keeps described in each Circuit between operating system and the identification card bound with described each operating system is connected, and disconnects described each operation Circuit connection between system and other unbound identification cards；

When the running status of any operation system in the multiple operating system is for exception, any operation system is disconnected And be connected with the circuit between the target identities identification card of any operation system binding, and set up the target identities identification Circuit connection between card and other operating systems.

6. the control device of terminal according to claim 5, it is characterised in that

The monitoring unit is additionally operable to：

Whether the running status for monitoring any operation system recovers normal；

The processing unit is additionally operable to：

When the running status of any operation system recovers normal, any operation system and the target are re-established Circuit connection between identification card, and disconnect the circuit between the target identities identification card and described other operating systems Connection.

7. the control device of the terminal according to claim 5 or 6, it is characterised in that the monitoring unit specifically for：

Described each operating system is sent a command to, and records the response time of each operating system；

When the response time of any operating system the default response time is more than or equal to, the fortune of any operation system is judged Row state is abnormal, otherwise, it is determined that the running status of any operation system is normal.

8. the control device of terminal according to claim 7, it is characterised in that also include：

Setting unit, according to the setting command for receiving, sets the default response time.

9. a kind of terminal, it is characterised in that including：

Multiple draw-in grooves；

Multiple operating systems；And

The control device of the terminal as any one of claim 5 to 8.