CN109753213B - Command instruction transmission method, device and equipment based on map and storage medium - Google Patents

Abstract

The invention discloses a command instruction transmission method based on a map, which comprises the following steps: receiving touch input in a first map on a screen, acquiring longitude and latitude information of the touch input in the first map, and determining a selected area in the first map according to the touch input; after the selected area is determined, continuing to receive touch input, identifying the touch input in the selected area, and mapping a touch instruction corresponding to the touch input in the selected area into a longitude and latitude space in the first map; and sending the touch instruction mapped into the longitude and latitude space in the first map to a client for receiving a command. The invention reduces the data volume required to be transmitted in the command process, improves the pertinence and confidentiality of instruction transmission and also improves the command efficiency. Through the introduction of longitude and latitude information, the response of a command instruction on a plurality of clients with maps of different proportions is conveniently and quickly realized.

Description

Command instruction transmission method, device and equipment based on map and storage medium

Technical Field

The invention belongs to the technical field of intelligent interaction, and particularly relates to a command instruction transmission method, device and equipment based on a map and a computer readable storage medium.

Background

In the existing remote commanding process, after a commander performs touch control marking on a map, the marked map picture needs to be transmitted to a commanded party so as to inform the commanded intention of the commanded party. However, in the case of a large amount of map information, transmitting the entire map screen easily results in the command information not reaching the commanded party safely and in time.

Disclosure of Invention

In view of this, the embodiments of the present invention provide a method, an apparatus, a device and a storage medium for transmitting a command instruction based on a map.

A first aspect of the present invention provides a method for transmitting a command instruction based on a map, the method comprising:

receiving touch input in a first map on a screen, acquiring longitude and latitude information of the touch input in the first map, and determining a selected area in the first map according to the touch input;

after the selected area is determined, continuing to receive touch input, identifying the touch input in the selected area, and mapping a touch instruction corresponding to the touch input in the selected area into a longitude and latitude space in the first map;

and sending the touch instruction mapped into the longitude and latitude space in the first map to a client for receiving a command.

In some embodiments, said continuing to receive touch input is performed after said determining the selected area; or waiting for a time period after the selected area is determined, and if the touch input is not received in the time period, executing the continuous receiving of the touch input; or judging whether the selected area is closed or not, and if so, executing the continuous receiving of the touch input.

In some embodiments, the touch instruction mapped into the longitude and latitude space in the first map is sent to the client receiving the command, so that the client responds on the same longitude and latitude of the second map of the client according to the touch instruction mapped into the longitude and latitude space in the first map and displays a response result.

In some embodiments, the touch instruction mapped into the latitude and longitude space in the first map and the latitude and longitude information of the selected area are sent to the client for receiving the command, so that the client responds on the same latitude and longitude of the second map of the client according to the touch instruction mapped into the latitude and longitude space in the first map and the latitude and longitude information of the selected area and displays the response result of the selected area.

In some embodiments, the first map and the second map are two-dimensional or three-dimensional scenes of a map.

In some embodiments, the first map and the second map are on the same or different scales.

A second aspect of the present invention provides a map-based command instruction transmitting apparatus, the apparatus comprising:

the selection unit is used for receiving touch input in a first map on a screen, acquiring longitude and latitude information of the touch input in the first map, and determining a selected area in the first map according to the touch input;

the acquisition unit is used for continuously receiving touch input after a selected area is determined, identifying the touch input in the selected area, and mapping a touch instruction corresponding to the touch input in the selected area into a longitude and latitude space in the first map;

and the sending unit is used for sending the touch instruction mapped into the latitude and longitude space in the first map to a client for receiving the command.

In some embodiments, the sending unit is configured to send the touch instruction mapped into the longitude and latitude space in the first map to a client receiving a command, so that the client responds to the touch instruction mapped into the longitude and latitude space in the first map on the same longitude and latitude of a second map of the client and displays a response result.

A third aspect of the invention provides a map-based command instruction transmitting device, the device comprising a memory and a processor; the memory is used for storing executable program codes; the processor is used for reading the executable program codes stored in the memory so as to execute the map-based command instruction transmission method.

A fourth aspect of the present invention provides a computer-readable storage medium comprising instructions that, when executed on a computer, cause the computer to perform the map-based command instruction transmission method.

In the invention, through receiving the touch input in the first map on the screen, the latitude and longitude information of the touch input in the first map is obtained, the selected area in the first map is determined according to the touch input, after the selected area is determined, the touch input is continuously received, the touch input in the selected area is identified, the touch instruction corresponding to the touch input in the selected area is mapped into the latitude and longitude space in the first map, and the touch instruction mapped into the latitude and longitude space in the first map is sent to the client terminal for receiving command, so that the data volume required to be transmitted in the command process is reduced compared with the background technology, the pertinence and the confidentiality of instruction transmission in the command process are improved, and the command efficiency is also improved. Moreover, through the introduction of longitude and latitude information, the response of the command instruction on a plurality of clients with maps of different proportions can be conveniently and quickly realized.

Drawings

Fig. 1 is a flowchart illustrating a method for transmitting a command instruction based on a map according to an embodiment of the present invention.

Fig. 2 is a flowchart illustrating a method for transmitting a command based on a map according to another embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a map-based command transmission device according to still another embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a map-based command transmission device according to still another embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1, fig. 1 is a schematic flowchart of a method for transmitting a command instruction based on a map according to an embodiment of the present invention, where the method includes:

s11: touch input in a first map on a screen is received, and a selected area in the first map is determined according to the touch input.

In the present application, the first map may be displayed on a screen of the local terminal, and inputs thereon may be captured by various means such as electric induction, magnetic induction, thermal induction, optical induction and the like through the screen and a sensor attached to the screen. The input can be touch input generated by directly touching the screen, or optical touch input to the screen by means of light beams emitted by a remote control laser pen. The screen may include, for example, a capacitive, resistive, infrared frame-and-bezel, or surface acoustic wave touch input and display screen, among others.

The screen may also include, for example, a screen that can directly display images (e.g., an L CD display), with an infrared light curtain disposed on the surface of the screen, and an infrared camera that can capture touch inputs from finger touch points.

The screens may also include, for example, the following screens: an infrared light curtain is arranged on the surface of the screen, and the screen is provided with a projection device for displaying images and an infrared camera. When a finger touches the screen or a map of the surface, an infrared camera attached to the screen can capture the input of the finger touch point.

The screens may also include, for example, the following screens: the screen is a projection screen adapted to project an image thereon for image display. The projection screen may be, for example, a screen of a wall, cloth, or other material. The input is realized by transmitting a laser beam to the map on the projection screen through a remote control laser pen, and when the remote control laser pen transmits the laser beam to the map of the service end on the projection screen, a sensor collects a laser signal on the screen to be used as touch input.

In addition to the above, various screen touch technologies and touch screens exist in the prior art, and are not described herein since these technologies are well known to those skilled in the art.

The above touch input may be sent to a computer, a server, or various devices with computing processing capabilities for further processing. For ease of description, the following describes a service and a client that are introduced to represent the available computer equipment of the command center and the commanded center.

After receiving the touch input, the server analyzes the touch input. For example, coordinate information or touch trajectory of the touch point is analyzed, and thus a selected area of the user in the map can be determined, such as: the user can input four touch points in the map, and the computer can determine the selected area of the user in the map according to the coordinate information of the four touch points, for example, the selected area can be a rectangular selected area, a trapezoid selected area, or the like; alternatively, the user may draw a circle directly in the map to define a selected area; or one contact point can be circular, and areas within a certain radius are marked as selected areas.

In some embodiments of the invention, the screen is used to display a two-dimensional or three-dimensional scene of a map.

S12: after the selected area is determined, touch input is continuously received, touch input falling in the selected area is identified, and a touch instruction corresponding to the touch input in the selected area is mapped to the longitude and latitude space in the first map.

In this step, when a plurality of users perform touch operations on the screen of the server where the map is located, the sensor collects touch inputs, and after the server receives the touch inputs, the server analyzes and compares the touch positions corresponding to the selected area and the touch inputs to determine which touches fall into the selected area. Then, the touch input in the selected area may be further processed, and the touch instruction corresponding to the touch input in the selected area is mapped into the longitude and latitude space in the first map. And sending the touch instruction mapped into the longitude and latitude space in the first map to a client for receiving a command.

To transition from step S11 to S12, after step S11, a specific touch, such as input W, may be input on the touch screen to indicate that step S12 is to be performed later, that is, after the server receives a predetermined touch input, the program after step S12 is executed (the server may store an instruction corresponding to the W track in advance); or may wait for a period of time after step S11, and automatically transition to step S12 if no touch input is received within the period of time; or it may be determined whether the circle has been closed to determine that the selected area has been made, so as to automatically proceed to the next step S12.

S13: and sending the touch instruction mapped into the longitude and latitude space in the first map to a client for receiving a command.

In some embodiments, the touch instruction mapped into the longitude and latitude space in the first map is sent to the client receiving the command, so that the client responds on the same longitude and latitude of the second map of the client according to the touch instruction mapped into the longitude and latitude space in the first map and displays a response result.

The touch instruction includes, for example, zooming in, zooming out, marking, and the like on the corresponding touch content.

The content displayed by the map of the client side can be the same as or different from the content displayed by the server side. For example, when the map displays a two-dimensional map, the map of the client may display three-dimensional map information corresponding to the two-dimensional map. When a user touches a selected area of a two-dimensional map of the map, the touch instruction mapped into the longitude and latitude space in the first map can be sent to a client receiving a command, so that the client responds on the same longitude and latitude of the map of the client according to the touch instruction mapped into the longitude and latitude space in the map and displays a response result. For example, if the server marks a flag in a selected area of the two-dimensional map of the map by touch input, the client marks a flag in the same longitude and latitude position of the three-dimensional map. Touch outside the selected area, which may be input operation for other purposes of an observer, for example, will not be sent to the client, and therefore, no additional interference will be introduced; in addition, the secrecy of other touch operations outside the selected area can be achieved.

In some examples, the size of the map of the server and the size of the map of the client may be the same, and at this time, the client displays the touch result after performing a touch response at a corresponding position of the map of the client (that is, performing a response corresponding to the touch response of the server) directly according to the received touch instruction.

The method is also suitable for the situation that the size of the map of the server side is different from that of the map of the client side.

It should be noted that, in some other embodiments of the present invention, the user may draw at least two selected areas in the map of the server, and send the instructions mapped to the map space in the at least two selected areas to different clients, so that the map of each client can perform touch response at the same longitude and latitude and display the touch result, thereby enabling one user to issue command commands to multiple users. For example, in the battle command, through the method, the commander determines two frame selection areas a and B in the first map according to the touch input of the touch points, and makes different touch motions in the frame selection areas a and B, sends the touch command corresponding to the touch motion in the frame selection area a to the commander C, and sends the touch command corresponding to the touch motion in the frame selection area B to the commander D, at this time, the commander C displays the touch motion in the frame selection area a in the longitude and latitude corresponding to the second map, and the commander D displays the touch motion in the frame selection area B in the longitude and latitude corresponding to the third map. Therefore, the commander can issue command instructions to the commanded parties C and D at the same time, and the commanded parties C and D cannot see the command instructions received by the other parties, so that the confidentiality of military command is improved.

In the invention, through receiving the touch input in the first map on the screen, the latitude and longitude information of the touch input in the first map is obtained, the selected area in the first map is determined according to the touch input, after the selected area is determined, the touch input is continuously received, the touch input in the selected area is identified, the touch instruction corresponding to the touch input in the selected area is mapped into the latitude and longitude space in the first map, and the touch instruction mapped into the latitude and longitude space in the first map is sent to the client terminal for receiving command. Moreover, through the introduction of longitude and latitude information, the response of the command instruction on a plurality of clients with maps of different proportions can be conveniently and quickly realized.

As shown in fig. 2, fig. 2 is a flowchart of a method for transmitting a command instruction based on a map according to another embodiment of the present invention, where the method includes:

s21: touch input in a map on a screen is received, and a selected area in the map is determined according to the touch input.

S22: after the selected area is determined, touch input is continuously received, touch input falling in the selected area is identified, and a touch instruction corresponding to the touch input in the selected area is mapped to the longitude and latitude space in the first map.

Steps S21 and S22 are similar to steps S11 and S12 in the above embodiments, respectively, and can be understood by referring to the contents in the above embodiments, which are not repeated herein.

S23: and sending the touch instruction mapped into the longitude and latitude space in the first map and the longitude and latitude information of the selected area to a client for receiving a command, so that the client responds on the same longitude and latitude of a second map of the client according to the touch instruction mapped into the longitude and latitude space in the first map and the longitude and latitude information of the selected area and displays a response result of the selected area. The difference between this embodiment and the above embodiments is that in this embodiment, the client only displays the response result in the selected area, and other areas may be displayed in blank or in fuzzified.

For example: in military operation command, by the method, when a commander takes a certain operation area in a two-dimensional map as a selected area on a map of a server, touch operation is performed on a certain operation army in the selected area, for example: when the attack direction is plotted by the arrow through the arrow-like touch input, after the director or the client receives the information of the selected area and the touch input in the selected area, the attack route represented by the arrow in the selected area is displayed at the corresponding position in the two-dimensional or three-dimensional map of the client. That is, the map of the client only responds to the touch of the commander in the selected area, but does not respond to the touch outside the selected area, and the part outside the selected area can be displayed in a blank mode or in an obscured mode, so that the confidentiality of the military command of the commander is provided. The map of the server and the map of the client can both display two-dimensional maps, or both display three-dimensional maps, or one of the two-dimensional maps and the other three-dimensional map, wherein the proportions of the maps in the two display windows can be consistent or inconsistent.

In other embodiments of the present invention, after receiving the information of the selected area and the touch instruction corresponding to the touch input, the client may display the response result in the selected area in a full screen manner.

Compared with the background technology, the invention reduces the data volume required to be transmitted in the commanding process, and improves the pertinence and confidentiality of instruction transmission in the commanding process, thereby improving the commanding efficiency. Moreover, through the introduction of longitude and latitude information, the response of a command instruction on a plurality of clients with maps of different proportions can be conveniently and quickly realized; in addition, because the touch response result in the selected area is only displayed at the client, the visual interference can be reduced, and the accuracy and the efficiency of the command are improved.

In order to better implement the command instruction transmission method based on the map provided by the embodiment of the invention, the embodiment of the invention also provides a command instruction transmission device based on the map. The meaning of the noun is the same as that of the above command instruction transmission method based on the map, and specific implementation details can refer to the description in the method embodiment.

As shown in fig. 3, fig. 3 is a schematic structural diagram of a map-based command instruction transmission apparatus according to another embodiment of the present invention, where the apparatus includes: a selection unit 31, an acquisition unit 32 and a transmission unit 33.

The selection unit is used for receiving touch input in a first map on a screen, acquiring longitude and latitude information of the touch input in the first map, and determining a selected area in the first map according to the touch input; the acquisition unit is used for continuously receiving touch input after determining a selected area, identifying the touch input in the selected area, and mapping a touch instruction corresponding to the touch input in the selected area into a latitude and longitude space in the first map; the sending unit is used for sending the touch instruction mapped into the longitude and latitude space in the first map to a client for receiving the command.

In some embodiments, the sending unit is configured to send the touch instruction mapped into the longitude and latitude space in the first map to a client receiving a command, so that the client responds to the touch instruction mapped into the longitude and latitude space in the first map on the same longitude and latitude of a second map of the client and displays a response result.

In some embodiments, the sending unit is configured to send the touch instruction mapped to the latitude and longitude space in the first map and the latitude and longitude information of the selected area to a client receiving a command, so that the client responds to the touch instruction mapped to the latitude and longitude space in the first map and the latitude and longitude information of the selected area on the same latitude and longitude of a second map of the client and displays a response result of the selected area.

The map-based command instruction transmission device according to the embodiment of the present invention may correspond to an execution main body in the map-based command instruction transmission method according to the embodiment of the present invention, and the above and other operations or functions of each unit in the map-based command instruction transmission device are respectively for implementing corresponding flows of each method in fig. 1, and are not described herein again for brevity.

Compared with the background technology, the invention reduces the data volume required to be transmitted in the commanding process, and improves the pertinence and confidentiality of instruction transmission in the commanding process, thereby improving the commanding efficiency. Moreover, through the introduction of longitude and latitude information, the response of the command instruction on a plurality of clients with maps of different proportions can be conveniently and quickly realized. Moreover, in some embodiments, as described above with reference to fig. 2, since the touch response result in only the selected area is displayed at the client, the visual interference can be reduced, and the accuracy and efficiency of the command can be improved.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment of the present invention.

Compared with the background technology, the invention reduces the data volume required to be transmitted in the commanding process, and improves the pertinence and confidentiality of instruction transmission in the commanding process, thereby improving the commanding efficiency. Moreover, through the introduction of longitude and latitude information, the response of the command instruction on a plurality of clients with maps of different proportions can be conveniently and quickly realized.

Fig. 4 is a schematic structural view of a map-based command transmission apparatus according to still another embodiment of the present invention. As shown in fig. 4, at least a part of the command instruction transmission apparatus for map-based guidance instruction combined with the above-described command instruction transmission method based on map and map can be implemented by a command instruction transmission device 400 based on map, which includes a processor 403, a memory 404, and a bus 410.

In some instances, the device 400 may also include an input device 401, an input port 402, an output port 405, and an output device 406. Input device 401 and output device 406 are connected to bus 410, and thus to other components of device 400, via input port 402 and output port 405, respectively. Here, the input port 402, the processor 403, the memory 404, and the output port 405 may be connected to each other, and the input device is represented by an I/O interface. Specifically, the input device 401 receives input information from the outside and transmits the input information to the processor 403 through the input port 402; processor 403 processes the input information based on computer-executable instructions stored in memory 404 to generate output information, stores the output information temporarily or permanently in memory 404, and then transmits the output information to output device 406 through output port 405; output device 406 outputs the output information to the exterior of device 400.

The memory 404 includes mass storage for data or instructions. By way of example, and not limitation, memory 404 may include an HDD, floppy disk drive, flash memory, optical disk, magneto-optical disk, magnetic tape, or a Universal Serial Bus (USB) drive or a combination of two or more of these. Memory 404 may include removable or non-removable (or fixed) media, where appropriate. Memory 404 may be internal or external to device 400, where appropriate. In a particular embodiment, the memory 404 is a non-volatile solid-state memory. In a particular embodiment, the memory 404 includes Read Only Memory (ROM). Where appropriate, the ROM may be mask-programmed ROM, Programmable ROM (PROM), Erasable PROM (EPROM), Electrically Erasable PROM (EEPROM), electrically rewritable ROM (EAROM), or flash memory or a combination of two or more of these.

When the map-based command transmission apparatus described in connection with fig. 3 is implemented by the device 400 shown in fig. 4, the input device 401 receives touch input in the map of the first screen, and in particular embodiments, the I/O interface connected to the output device may comprise hardware, software, or both, providing one or more interfaces for communication between the device 400 and one or more I/O devices. By way of example, and not limitation, the I/O devices may include touch screens, video cameras. The I/O device may include one or more sensors. Embodiments of the present invention contemplate any suitable I/O devices and any suitable I/O interfaces for use therewith. The I/O interface may comprise one or more devices or software drivers capable of allowing the processor 403 to drive one or more of these I/O devices, where appropriate. The I/O interface may include one or more I/O interfaces, where appropriate. Although embodiments of the present invention describe and illustrate particular I/O interfaces, embodiments of the present invention contemplate any suitable I/O interfaces.

As shown in fig. 4, the map-based command instruction transmitting device provided by the present application includes a memory and a processor; the memory is used for storing executable program codes; the processor is used for reading the executable program codes stored in the memory so as to execute the map-based command instruction transmission method.

The computer instructions may be stored in or transmitted from one computer-readable storage medium to another computer-readable storage medium, e.g., from one website site, computer, server, or data center, by wired (e.g., coaxial cable, fiber optic, digital subscriber line (DS L)) or wireless (e.g., infrared, wireless, microwave, etc.) means to another website site, computer, server, or data center, the computer-readable storage medium may be any computer-readable storage medium that can be accessed by a computer, such as a Solid State Disk, or a Solid State Disk, or a Solid State Disk, a magnetic storage medium (e.g., a DVD, SSD, optical Disk.

Those skilled in the art will understand from the context: the present application also provides a computer-readable storage medium, which may include instructions that, when executed on a computer, may cause the computer to perform the above-described map-based command instruction transmission method; the present application also provides a computer program product containing instructions which, when run on a computer, cause the computer to perform the above-described map-based command instruction transmission method; the present application also provides a computer program which, when run on a computer, causes the computer to perform the above-described map-based command instruction transmission method.

While the invention has been described with reference to specific embodiments, the invention is not limited thereto, and various equivalent modifications and substitutions can be easily made by those skilled in the art within the technical scope of the invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. A method for transmitting command instructions based on a map, the method comprising:

receiving touch input in a first map on a screen, acquiring longitude and latitude information of the touch input in the first map, and determining a selected area in the first map according to the touch input;

after the selected area is determined, continuing to receive touch input, identifying the touch input in the selected area, and mapping a touch instruction corresponding to the touch input in the selected area into a longitude and latitude space in the first map;

and sending the touch instruction mapped into the longitude and latitude space in the first map and the longitude and latitude information of the selected area to a client for receiving a command, so that the client responds on the same longitude and latitude of a second map of the client according to the touch instruction mapped into the longitude and latitude space in the first map and the longitude and latitude information of the selected area and displays a response result of the selected area without responding to touch control performed outside the selected area, and the part outside the selected area is displayed in a blank mode or in an obscured mode.

2. The map-based command instruction transmission method of claim 1, wherein the continuing to receive touch input is performed after the determining of the selected area; or waiting for a time period after the selected area is determined, and if the touch input is not received in the time period, executing the continuous receiving of the touch input; or judging whether the selected area is closed or not, and if so, executing the continuous receiving of the touch input.

3. The map-based command transmission method according to claim 1 or 2, wherein the first map and the second map are two-dimensional or three-dimensional scenes of a map.

4. The map-based command transmission method of claim 1 or 2, wherein the first map and the second map are on the same scale or on different scales.

5. A map-based command instruction transmitting device comprising a memory and a processor;

the memory is used for storing executable program codes;

the processor is configured to read executable program code stored in the memory to perform the map-based command instruction transmission method of any one of claims 1 to 4.

6. A computer-readable storage medium comprising instructions that, when run on a computer, cause the computer to perform the map-based command instruction transmission method of any of claims 1 to 4.

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