CN103198811A - Liquid crystal splicing system and control method thereof - Google Patents

Abstract

The invention discloses a liquid crystal splicing system and a control method thereof. The liquid crystal splicing system comprises at least one display unit, terminal equipment, a machine core unit, lower computer equipment and a command controller. The terminal equipment is used for receiving and sending an operational order of a user, the machine core unit and the lower computer equipment are used for controlling the display unit to display, and the command controller is used for controlling the lower computer equipment to work. After the terminal equipment receives the operation order input by the user, the terminal equipment analyzes network orders of corresponding operations of the machine core unit and the lower computer equipment and respectively sends the network orders used for controlling the corresponding operation of the machine core unit to the machine core unit so as to provide the machine core unit to control the display unit to display. The command controller is used for controlling the network orders of the corresponding operation of the lower computer equipment and outputs a control signal to control the working state of the lower computer equipment according to the network orders. The control method achieves controlling on the liquid crystal splicing system through portable terminal equipment, and therefore, sensitivity of the liquid crystal splicing system is improved, and the liquid crystal splicing system facilitates use of the user.

Description

Liquid crystal-spliced system and control method thereof

Technical field

The present invention relates to liquid crystal-spliced technical field, particularly a kind of liquid crystal-spliced system and control method thereof.

Background technology

Along with the fast development of security protection industry, the continuous lifting of device intelligenceization has increased the diversity of engineering merchant to the security protection equipment purchase, and this has also just caused compatibility and the real-time control problem of equipment room.

Liquid crystal-spliced screen wall is basic display unit with the LCDs, integrates up-to-date lcd technology and pure hardware high-speed real-time splicing control technology, and all input signals are free to be presented at and show in the wall window.The opertaing device that shows for the control display unit of forming this system comprises movement unit and slave computer equipment, and wherein slave computer equipment comprises splicing controller, VGA matrix, AV matrix, HDMI matrix and the controller of windowing.

In the prior art, PC is adopted in control for the duty of movement unit and slave computer equipment usually, after PC is handled the operational order of user's input, export corresponding serial ports and instruct to movement unit and slave computer equipment, thus the duty of controller core unit and slave computer equipment.But because the travelling performance of PC is relatively poor, thereby cause the dirigibility operated lower.

Summary of the invention

Fundamental purpose of the present invention is to provide a kind of liquid crystal-spliced system, is intended to improve the dirigibility of liquid crystal-spliced system operation.

In order to realize goal of the invention, the invention provides a kind of liquid crystal-spliced system, this liquid crystal-spliced system comprises at least one display unit, be used for receiving and sending the terminal device of user's operational order, be used for movement unit and slave computer equipment that the control display unit shows, and the instruction control unit that is used for the work of the described slave computer equipment of control, after wherein terminal device receives the operational order of user's input, the network instruction of analytical engine core unit and slave computer equipment respective operations, and will be sent to the movement unit respectively for the network instruction of controller core unit respective operations, show for movement unit controls display unit; Described instruction control unit receives the network instruction that is used for control slave computer equipment respective operations, and controls the duty of slave computer equipment according to this network instruction output control signal.

Preferably, described terminal device sends described network instruction by the Wi-Fi wireless network.

Preferably, described movement unit is provided with the receiving element for the network instruction of controller core unit respective operations; Described instruction control unit is provided with the receiver module that receives the network instruction that is used for control slave computer equipment respective operations, and exports slave computer equipment to by the mode of serial communication, with the duty of control slave computer equipment.

Preferably, described instruction control unit is provided with and receives described terminal device sends described network instruction by the Wi-Fi wireless network receiver module, and the mode by serial communication will export corresponding slave computer equipment to for the network instruction of control slave computer equipment respective operations, with the duty of control slave computer equipment; Mode by serial communication will export the movement unit to for the network instruction of controller core unit respective operations, and the movement unit is according to the show state of this network instruction control display unit.

Preferably, described terminal device is the portable terminal based on internet operating system.

Preferably, described terminal device is provided with for supplying user's input operation list of instructions view model, and when user's input operation is instructed, adjust the current interface of List View model according to the operational order of user's input, and the network instruction of analytical engine core unit and slave computer equipment respective operations.

The present invention also provides a kind of control method of liquid crystal-spliced system, and the control method of this liquid crystal-spliced system may further comprise the steps:

When terminal device received user's operational order, this terminal device was according to the network instruction of described operational order analytical engine core unit and slave computer equipment respective operations, and exported described network instruction;

Movement unit and instruction control unit receive described network instruction, and show according to described network instruction control display unit.

Preferably, described movement unit and slave computer equipment receive described network instruction, and specifically comprise according to described network instruction control display unit step display:

Instruction control unit receives the network instruction that is used for control slave computer equipment respective operations, be the initialize data form with the Data Format Transform of this network instruction, and analyze the work order of slave computer equipment according to the network instruction after the conversion, export this work order to described slave computer equipment, with the duty of control slave computer equipment;

The movement unit receive to be used for the network instruction of controller core unit respective operations, is the initialize data form with the Data Format Transform of this network instruction, and according to the demonstration of the control of the network instruction after conversion display unit.

Preferably, described movement unit and slave computer equipment receive described network instruction, and specifically comprise according to described network instruction control display unit step display:

Instruction control unit receives described network instruction, is the initialize data form with the Data Format Transform of this network instruction; According to the work order of conversion back for the network instruction analysis slave computer equipment of control slave computer equipment respective operations, export this work order to described slave computer equipment, with the duty of control slave computer equipment; And output conversion back is used for the network instruction of controller core unit respective operations to described movement unit;

The movement unit receives the network instruction that the conversion back is used for controller core unit respective operations, and controls the demonstration of display unit according to this network instruction.

Preferably, described when terminal device receives user's operational order, this terminal device is according to the network instruction of described operational order analytical engine core unit and slave computer equipment respective operations, and exports described network instruction and specifically comprise:

When terminal device receives user's operational order, according to the algorithm that presets splicing described operational order is carried out computing, obtain to show the adjustment data;

Adjust the network instruction of data analysis movement unit and slave computer equipment respective operations according to the demonstration that obtains after the computing, and adjust the current display interface of terminal device;

When described terminal device be connected with instruction control unit, movement unit networks set up successfully after, export described network instruction to instruction control unit and movement unit.

The present invention is by windowing to terminal device input the user or during operational order such as splicing, terminal device and movement unit and slave computer equipment connect, and the network instruction of the respective operations of carrying out according to the operational order analytical engine core unit of the current input of user and slave computer equipment needs, and will be sent to the movement unit for the network instruction of controller core unit, show relevant content by movement unit controls display unit, to be sent to instruction control unit for the network instruction of control slave computer equipment, instruction control unit is converted to the network instruction that receives the data of serial communication, and analyze the work order of each slave computer equipment, thereby output controls signal to each slave computer equipment accordingly, with the duty of control slave computer equipment, thereby realization is to the control of liquid crystal-spliced system.The present invention realizes the control of liquid crystal-spliced system by portable terminal, so improves the dirigibility of liquid crystal-spliced system operation, and is more user-friendly.

Description of drawings

Fig. 1 is the structural representation of liquid crystal-spliced one embodiment of system of the present invention;

Fig. 2 is the structural representation of liquid crystal-spliced another embodiment of system of the present invention;

Fig. 3 is the schematic flow sheet of control method one embodiment of the liquid crystal-spliced system of the present invention;

Fig. 4 is the schematic flow sheet of another embodiment of control method of the liquid crystal-spliced system of the present invention;

Fig. 5 is the schematic flow sheet of the another embodiment of control method of the liquid crystal-spliced system of the present invention;

Fig. 6 is the schematic flow sheet of terminal device process user operational order among control method one embodiment of the liquid crystal-spliced system of the present invention.

The realization of the object of the invention, functional characteristics and advantage will be in conjunction with the embodiments, are described further with reference to accompanying drawing.

Embodiment

Should be appreciated that specific embodiment described herein only in order to explaining the present invention, and be not used in restriction the present invention.

See figures.1.and.2, Fig. 1 is the structural representation of liquid crystal-spliced one embodiment of system of the present invention, and Fig. 2 is the structural representation of liquid crystal-spliced another embodiment of system of the present invention.The liquid crystal-spliced system that present embodiment provides comprises at least one display unit 10, be used for receiving and sending the terminal device 20 of user's operational order, be used for movement unit 30 and slave computer equipment 40 that control display unit 10 shows, and the instruction control unit 50 that is used for 40 work of control slave computer equipment, after wherein terminal device 20 receives the operational order of user's input, the network instruction of analytical engine core unit 30 and slave computer equipment 40 respective operations, and will be sent to movement unit 30 respectively for the network instruction of controller core unit respective operations, show for movement unit 30 control display units 10; Described instruction control unit 50 receives the network instruction that is used for control slave computer equipment 40 respective operations, and controls the duty of slave computer equipment 40 according to this network instruction output control signal.

In the present embodiment, above-mentioned terminal device 20 is the portable terminal based on internet operating system.For example, iPad equipment etc.The user can be by terminal device 20 input operations instruction, and this instruction comprises operational orders such as windowing, splice, move.

Should be noted that above-mentioned slave computer equipment 40 specifically comprises splicing controller, VGA matrix, AV matrix, HDMI matrix and the controller of windowing.

The present invention by the user to terminal device 20 input window or during operational order such as splicing, terminal device 20 connects with movement unit 30 and slave computer equipment 40, and the network instruction of the respective operations of carrying out according to the operational order analytical engine core unit 30 of the current input of user and slave computer equipment 40 needs, and will be sent to movement unit 30 for the network instruction of controller core unit 30, show relevant content by movement unit 30 control display units 10, to be sent to instruction control unit 50 for the network instruction of control slave computer equipment 40, instruction control unit 50 is converted to the network instruction that receives the data of serial communication, and analyze the work order of each slave computer equipment 40, thereby output controls signal to each slave computer equipment 40 accordingly, with the duty of control slave computer equipment 40, thereby realization is to the control of liquid crystal-spliced system.The present invention realizes the control of liquid crystal-spliced system by portable terminal, so improves the dirigibility of liquid crystal-spliced system operation, and is more user-friendly.

Should be noted that in the present embodiment that above-mentioned terminal device 20 sends described network instruction by the Wi-Fi wireless network.Can directly the network instruction that is used for controller core unit 30 be sent to movement unit 30 by the Wi-Fi wireless network among terminal device 20 1 embodiment; Can will export movement unit 30 by this instruction control unit 50 for the network instruction of controller core unit 30 to by serial port communicating protocol by network instruction being sent to instruction control unit 50 in another embodiment.

Particularly, in one embodiment, as shown in Figure 1, movement unit 30 is provided with the receiving element for the network instruction of controller core unit 30 respective operations.Instruction control unit 50 is provided with the receiver module that receives the network instruction that is used for control slave computer equipment 40 respective operations, and exports slave computer equipment 40 to by the mode of serial communication, with the duty of control slave computer equipment 40.

In the present embodiment, above-mentioned movement unit 30 can be a movement chip ST7540, and by a Qt application program is set, this Qt application program comprises that one realizes the thread of wireless network transmission-receiving function.This movement chip ST7540 externally provides an IP and a port, and the Connection Service of client can be provided.Above-mentioned receiver module can insert WLAN with instruction control unit 50, and after this receiver module received network instruction, the instruction that converts thereof into the serial ports form was used for instruction control unit 50.

In another embodiment, as shown in Figure 2, instruction control unit 50 is provided with receiving terminal apparatus 20 sends network instruction by the Wi-Fi wireless network receiver module, and the mode by serial communication will export corresponding slave computer equipment 40 to for the network instruction of control slave computer equipment 40 respective operations, with the duty of control slave computer equipment 40; Mode by serial communication will export movement unit 30 to for the network instruction of controller core unit 30 respective operations, and movement unit 30 is according to the show state of this network instruction control display unit 10.

In the present embodiment, be with the difference of above-mentioned embodiment: instruction control unit 50 can be distinguished the network instruction that is sent to movement unit 30 and the network instruction that is sent to slave computer equipment 40 according to prefix and the suffix of each network instruction, and will export movement unit 30 to for the network instruction of controller core unit 30 respective operations, will export corresponding slave computer equipment 40 to for the network instruction of control slave computer equipment 40 respective operations.

Further, based on above-described embodiment, in the present embodiment, above-mentioned terminal device 20 is provided with for supplying user's input operation list of instructions view model, and when user's input operation is instructed, terminal device 20 is adjusted the current interface of List View model according to the operational order of user's input, and analyzes the network instruction of analytical engine core unit 30 and slave computer equipment 40 respective operations.

In the present embodiment, to import corresponding operational order, terminal device 20 comes the operational order of user's input is done relevant treatment according to the algorithm of built-in splicing the user by the operating list view model.Particularly, built-in stitching algorithm is that a display unit 10 can only show two windows simultaneously at most, if exceed display format, then relevant subwindow is carried out shutoff operation.After algorithm process finishes, obtain interface display and adjust data, be i.e. the data that need adjust of the current interface displayed of List View; According to show adjusting data the interface adjustment of List View model is responded user's operation by program then, and according to the data analysis movement unit of adjusting and the network instruction of slave computer equipment respective operations.After last above-mentioned processing was all finished, the mode that application program can send TCP instruction by Socket sent on the movement unit 30 with network instruction, can operate the displaying contents that corresponding network instruction is come processes and displays unit 10 according to the user on the movement unit 30.

The present invention also provides a kind of control method of liquid crystal-spliced system, and this liquid crystal-spliced system is the liquid crystal-spliced system in above-described embodiment.With reference to Fig. 3, Fig. 3 is the schematic flow sheet of control method one embodiment of the liquid crystal-spliced system of the present invention.The control method of the liquid crystal-spliced system that present embodiment provides may further comprise the steps:

Step S10, when terminal device received user's operational order, this terminal device was according to the network instruction of described operational order analytical engine core unit and slave computer equipment respective operations, and exported described network instruction;

In the present embodiment, above-mentioned terminal device is the portable terminal based on internet operating system.For example, iPad equipment etc.The user can be by terminal device input operation instruction, and this instruction comprises operational orders such as windowing, splice, move.When the user instructed to the terminal device input operation, the terminal device operational order analytical engine core unit of the current input of user more needed the network of executable operations and the network instruction that slave computer equipment needs executable operations, and the output network instruction.Should be noted that in the present embodiment and can export this network instruction by the mode of Wi-Fi wireless network.

Step S20, movement unit and instruction control unit receive described network instruction, and show according to described network instruction control display unit.

In the present embodiment, after the movement unit receives network instruction for controller core unit respective operations, according to the demonstration of this network instruction control display unit; After instruction control unit receives for the network instruction of controlling slave computer equipment respective operations, analyze the corresponding operating that each slave computer equipment need be carried out according to this network instruction, and export the duty that control signal is controlled each slave computer equipment, thereby the demonstration of control display unit.

The present invention is by windowing to terminal device input the user or during operational order such as splicing, terminal device and movement unit and slave computer equipment connect, and the network instruction of the respective operations of carrying out according to the operational order analytical engine core unit of the current input of user and slave computer equipment needs, and will be sent to the movement unit for the network instruction of controller core unit, show relevant content by movement unit controls display unit, to export instruction control unit to for the network instruction of control slave computer equipment, instruction control unit is converted to the network instruction that receives the data of serial communication, and analyze the work order of each slave computer equipment, thereby output controls signal to each slave computer equipment accordingly, controlling the duty of each slave computer equipment, thereby realize control to liquid crystal-spliced system.The present invention realizes the control of liquid crystal-spliced system by portable terminal, so improves the dirigibility of liquid crystal-spliced system operation, and is more user-friendly.

With reference to Fig. 4, Fig. 4 is the schematic flow sheet of another embodiment of control method of the liquid crystal-spliced system of the present invention, and based on above-described embodiment, during present embodiment was carried, above-mentioned steps S20 specifically comprised:

Step S21, instruction control unit receives the network instruction that is used for control slave computer equipment respective operations, be the initialize data form with the Data Format Transform of this network instruction, and analyze the work order of slave computer equipment according to the network instruction after the conversion, export this work order to described slave computer equipment, with the duty of control slave computer equipment;

Step S22, the movement unit receive to be used for the network instruction of controller core unit respective operations, is the initialize data form with the Data Format Transform of this network instruction, and according to the demonstration of the control of the network instruction after conversion display unit.

In the present embodiment, can adopt the movement unit of built-in Wi-Fi wireless network transmission-receiving function, for example can adopt model is ST7540 movement chip, and by a Qt application program is set, this Qt application program comprises that one realizes the thread of wireless network transmission-receiving function.This movement chip ST7540 externally provides an IP and a port, and the Connection Service of client can be provided.Establish a receiver module with Wi-Fi wireless network transmission-receiving function in the instruction control unit, this receiver module equally externally provides an IP and a port, by movement unit, receiver module and terminal device being inserted in the unified WLAN, after configuring IP and port, set up corresponding network connection with movement unit and instruction control unit by the application program of terminal device respectively.After terminal device and movement unit, instruction control unit are all set up a directed network connection, terminal device will export the movement unit to by the mode that Socket sends the TCP instruction for the network instruction of controller core unit respective operations, be the initialize data form by the movement unit with the Data Format Transform of this network instruction, and according to the conversion after network instruction output control signals to display unit, thereby control display unit demonstration; To export instruction control unit to by the mode that Socket sends the TCP instruction for the network instruction of control slave computer equipment respective operations simultaneously, the Data Format Transform that this instruction control unit will receive network instruction is the initialize data form, and analyze the work order of each slave computer equipment according to the network instruction after the conversion, then work order is sent to each slave computer equipment by interface, thereby controls the duty of each slave computer equipment.Should be noted that above-mentioned initialize data form can arrange according to actual needs, for example this initialize data form can be the data layout of serial communication.

With reference to Fig. 5, Fig. 5 is the schematic flow sheet of the another embodiment of control method of the liquid crystal-spliced system of the present invention, and based on above-described embodiment, in the present embodiment, above-mentioned steps S21 can also replace with:

Instruction control unit receives described network instruction, is the initialize data form with the Data Format Transform of this network instruction; According to the work order of conversion back for the network instruction analysis slave computer equipment of control slave computer equipment respective operations, export this work order to described slave computer equipment, with the duty of control slave computer equipment; And output conversion back is used for the network instruction of controller core unit respective operations to described movement unit;

Above-mentioned steps S22 correspondence replaces with:

The movement unit receives the network instruction that the conversion back is used for controller core unit respective operations, and controls the demonstration of display unit according to this network instruction.

The difference of present embodiment and above-described embodiment is that in the present embodiment, above-mentioned movement unit can be connected with instruction control unit by serial ports, thereby does not need built-in Wi-Fi wireless network transmission-receiving function.After instruction control unit will receive the network instruction of terminal device transmission, the type of phase-split network instruction, the type comprised that the network instruction of current reception is the network instruction that is used for the controller core unit or the network instruction that is used for controlling slave computer equipment.After the analyzing and processing, be the data layout of serial communication with the Data Format Transform of the network instruction that receives, and will change network instruction that the back is used for the controller core unit mode by the window communication and export the movement unit to, for the demonstration of movement unit controls display unit.Analyze the work order of each slave computer equipment simultaneously according to the network instruction that is used for control slave computer equipment after the conversion, then work order is sent to each slave computer equipment by interface, thereby controls the duty of each slave computer equipment.

With reference to Fig. 6, Fig. 6 is the schematic flow sheet of terminal device process user operational order among control method one embodiment of the liquid crystal-spliced system of the present invention.In the present embodiment, above-mentioned steps S10 specifically comprises:

Step S11 when terminal device receives user's operational order, carries out computing according to the algorithm that presets splicing to described operational order, obtains to show the adjustment data;

Step S12 adjusts the network instruction of data analysis movement unit and slave computer equipment respective operations according to the demonstration that obtains after the computing, and adjusts the current display interface of terminal device;

Step S13, when described terminal device be connected with instruction control unit, movement unit networks set up successfully after, export described network instruction to instruction control unit and movement unit.

In the present embodiment, as the user by the operating list view model importing corresponding operational order, terminal device comes the operational order of user's input is done relevant treatment according to the algorithm of built-in splicing.Particularly, built-in stitching algorithm is that a display unit can only show two windows simultaneously at most, if exceed display format, then relevant subwindow is carried out shutoff operation.After algorithm process finishes, obtain interface display and adjust data, be i.e. the data that need adjust of the current interface displayed of List View; According to show adjusting data user's operation is adjusted to respond in the interface (that is, current display interface) of List View model by program then, and according to the data analysis movement unit of adjusting and the network instruction of slave computer equipment respective operations.Then after the network connection of terminal device and instruction control unit, movement unit is set up successfully, to export the movement unit to for the network instruction of controller core unit respective operations, will export instruction control unit to for the network instruction of control slave computer equipment respective operations.

Below only be the preferred embodiments of the present invention; be not so limit claim of the present invention; every equivalent structure or equivalent flow process conversion that utilizes instructions of the present invention and accompanying drawing content to do; or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the present invention.

Claims (10)

1. liquid crystal-spliced system, it is characterized in that, comprise at least one display unit, be used for to receive and send user's operational order terminal device, be used for movement unit and the slave computer equipment that the control display unit shows and the instruction control unit that is used for the work of the described slave computer equipment of control, after wherein terminal device receives the operational order of user's input, the network instruction of analytical engine core unit and slave computer equipment respective operations, and will be sent to the movement unit respectively for the network instruction of controller core unit respective operations, show for movement unit controls display unit; Described instruction control unit receives the network instruction that is used for control slave computer equipment respective operations, and controls the duty of slave computer equipment according to this network instruction output control signal.

2. liquid crystal-spliced system as claimed in claim 1 is characterized in that, described terminal device sends described network instruction by the Wi-Fi wireless network.

3. liquid crystal-spliced system as claimed in claim 2 is characterized in that, described movement unit is provided with the receiving element for the network instruction of controller core unit respective operations; Described instruction control unit is provided with the receiver module that receives the network instruction that is used for control slave computer equipment respective operations, and exports slave computer equipment to by the mode of serial communication, with the duty of control slave computer equipment.

4. liquid crystal-spliced system as claimed in claim 2, it is characterized in that, described instruction control unit is provided with and receives described terminal device sends described network instruction by the Wi-Fi wireless network receiver module, and the mode by serial communication will export corresponding slave computer equipment to for the network instruction of control slave computer equipment respective operations, with the duty of control slave computer equipment; Mode by serial communication will export the movement unit to for the network instruction of controller core unit respective operations, and the movement unit is according to the show state of this network instruction control display unit.

5. as each described liquid crystal-spliced system in the claim 1 to 4, it is characterized in that described terminal device is the portable terminal based on internet operating system.

6. as each described liquid crystal-spliced system in the claim 1 to 4, it is characterized in that, described terminal device is provided with for supplying user's input operation list of instructions view model, and when user's input operation is instructed, operational order according to user's input is adjusted the current interface of List View model, and the network instruction of analytical engine core unit and slave computer equipment respective operations.

7. the control method of a liquid crystal-spliced system is characterized in that, may further comprise the steps:

When terminal device received user's operational order, this terminal device was according to the network instruction of described operational order analytical engine core unit and slave computer equipment respective operations, and exported described network instruction;

Movement unit and instruction control unit receive described network instruction, and show according to described network instruction control display unit.

8. the control method of liquid crystal-spliced system as claimed in claim 7 is characterized in that, described movement unit and slave computer equipment receive described network instruction, and specifically comprises according to described network instruction control display unit step display:

Instruction control unit receives the network instruction that is used for control slave computer equipment respective operations, be the initialize data form with the Data Format Transform of this network instruction, and analyze the work order of slave computer equipment according to the network instruction after the conversion, export this work order to described slave computer equipment, with the duty of control slave computer equipment;

The movement unit receive to be used for the network instruction of controller core unit respective operations, is the initialize data form with the Data Format Transform of this network instruction, and according to the demonstration of the control of the network instruction after conversion display unit.

9. the control method of liquid crystal-spliced system as claimed in claim 7 is characterized in that, described movement unit and slave computer equipment receive described network instruction, and specifically comprises according to described network instruction control display unit step display:

Instruction control unit receives described network instruction, is the initialize data form with the Data Format Transform of this network instruction; According to the work order of conversion back for the network instruction analysis slave computer equipment of control slave computer equipment respective operations, export this work order to described slave computer equipment, with the duty of control slave computer equipment; And output conversion back is used for the network instruction of controller core unit respective operations to described movement unit;

The movement unit receives the network instruction that the conversion back is used for controller core unit respective operations, and controls the demonstration of display unit according to this network instruction.

10. the control method of liquid crystal-spliced system as claimed in claim 7, it is characterized in that, it is described when terminal device receives user's operational order, this terminal device is according to the network instruction of described operational order analytical engine core unit and slave computer equipment respective operations, and exports described network instruction and specifically comprise:

When terminal device receives user's operational order, according to the algorithm that presets splicing described operational order is carried out computing, obtain to show the adjustment data;

Adjust the network instruction of data analysis movement unit and slave computer equipment respective operations according to the demonstration that obtains after the computing, and adjust the current display interface of terminal device;

When described terminal device be connected with instruction control unit, movement unit networks set up successfully after, export described network instruction to instruction control unit and movement unit.

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