CN111615087A - Method and device for controlling mobile equipment for networking battle - Google Patents

Abstract

The invention discloses a control method and a device for a mobile device for online battle, which comprises the following steps: obtaining a pairing request of a movable device, wherein the pairing request comprises networking information of the movable device; pairing the movable equipment according to the pairing request, wherein the movable equipment comprises one or more than one; receiving operational data from the movable device, wherein the operational data includes a path of travel of the movable device and a mobile device skill parameter; and generating a control instruction in response to the user operation and sending the control instruction to the movable equipment so as to enable the movable equipment to execute the control instruction. This application pairs control end and mobile device through the mode that the networking of short distance is paired, realizes the networking fight under the line, and the networking fight support technical ability's of under the line acquisition and loss, and the athletics is stronger with recreational, and the purpose that many people played is realized to the fight recreation, and is interactive stronger.

Description

Method and device for controlling mobile equipment for networking battle

Technical Field

The application relates to the technical field of control, in particular to a method and a device for controlling a mobile online fight device.

Background

Along with the improvement of living standard of people, people pay attention to entertainment and interaction while paying attention to learning, for example, some interactive games for developing intelligence and exercising team cooperation ability and reaction ability are provided, so as to achieve the purpose of interaction.

However, most of interactive games in the prior art are network games, the players do not need to be in front of each other, the game interface is checked through a display screen, a mouse or a control end controls the game process, and the game can be played in a group with other people through networking. In the prior art, intelligent interactive games capable of realizing single-side communication are all interactions between players and machine equipment, and the mode is not multi-player interaction in a real sense.

Disclosure of Invention

The application discloses a method and a device for pairing control terminals capable of being networked, which can automatically carry out connection pairing, are simple in pairing mode, and are simpler in pairing device.

Specifically, on one hand, the application discloses a control method for a networked fighting mobile device, which comprises the following steps:

the method comprises the steps of obtaining a pairing request of the movable equipment, wherein the pairing request comprises networking information of the movable equipment, and the networking information comprises identity information of the mobile equipment and communication mechanism information of the mobile equipment;

pairing the movable equipment according to the pairing request, wherein the movable equipment comprises one or more than one;

receiving operational data from the movable device, wherein the operational data includes a path of travel of the movable device and a mobile device skill parameter;

and generating a control instruction in response to the user operation and sending the control instruction to the movable equipment so as to enable the movable equipment to execute the control instruction.

Optionally, the pairing request for pairing the mobile device includes allocating a queue to the mobile device, where the queue is provided in multiple numbers, and each queue includes one or more mobile devices.

Optionally, the method for pairing the mobile device according to the pairing request includes:

acquiring a target signal transmitted by the mobile equipment in a broadcasting mode;

judging whether the target signal meets a preset condition or not, wherein the preset condition comprises that the receiving intensity of the target signal is within a preset threshold value;

and when the preset condition is met, the mobile terminal is connected with the mobile terminal in a pairing way.

Optionally, the method for pairing and connecting with the mobile terminal includes:

acquiring the number of the target signals;

when the number of the target signals is greater than or equal to 2, acquiring a historical connection record corresponding to a preset identifier;

and selecting the target signal with the maximum connection times in the historical connection records for pairing.

Optionally, the method for pairing and connecting with the mobile terminal includes:

acquiring the number of the target signals;

comparing the intensity of each target signal when the number of the target signals is greater than or equal to 2;

and selecting the target signal with the strongest receiving intensity for pairing.

Optionally, the operation path in the operation data of the movable device is obtained by a displacement sensing device mounted on the movable device.

Optionally, the mobile device skill parameter of the operation data of the mobile device is obtained by an induction device on the mobile device, wherein the induction device includes an infrared induction device and/or a radio frequency induction device, the infrared induction device is used for inducing infrared signals emitted by other mobile devices, and the radio frequency induction device is used for inducing radio frequency devices around the mobile device or on the ground.

On the other hand, the application discloses controlling means of online fight mobile device includes:

an acquisition module: configured to perform a pairing request to obtain a removable device, wherein the pairing request includes networking information of the removable device, the networking information including identity information of the mobile device and communication mechanism information of the mobile device;

a pairing module: configured to perform pairing of the removable devices according to the pairing request, wherein the removable devices comprise one or more;

a receiving module: configured to perform receiving operational data from the movable device, wherein the operational data comprises a path of travel of the movable device and a mobile device skill parameter;

a response module: is configured to generate and send control instructions to the removable device in response to user operations to cause the removable device to execute the control instructions.

Optionally, the pairing request for pairing the mobile device includes allocating a queue to the mobile device, where the queue is provided in multiple numbers, and each queue includes one or more mobile devices.

Optionally, the pairing module further includes:

a target signal acquisition module: configured to perform acquisition of a target signal transmitted by the removable device in a broadcast manner;

a judging module: configured to perform a determination of whether the target signal meets a preset condition, wherein the preset condition includes that a reception intensity of the target signal is within a preset threshold;

a pairing execution module: and the mobile terminal is configured to execute pairing connection with the mobile terminal when the preset condition is met.

Optionally, the pairing execution module further includes:

a first quantity acquisition module: a number configured to perform acquiring the target signal;

a history acquisition module: the device is configured to execute the step of acquiring a historical connection record corresponding to a preset identifier when the number of the target signals is greater than or equal to 2;

a first pairing execution submodule: configured to perform selecting the target signal with the largest number of connections in the historical connection record for pairing.

Optionally, the pairing execution module further includes:

a second quantity acquisition module: a number configured to perform acquiring the target signal;

a comparison module: configured to perform comparing the intensities of the respective target signals when the number of target signals is greater than or equal to 2;

and the selecting module is configured to perform the pairing of the selected target signal with the strongest receiving strength.

Optionally, the operation path in the operation data of the movable device is obtained by a displacement sensing device mounted on the movable device.

Optionally, the mobile device skill parameter of the operation data of the mobile device is obtained by an induction device on the mobile device, wherein the induction device includes an infrared induction device and/or a radio frequency induction device, the infrared induction device is used for inducing infrared signals emitted by other mobile devices, and the radio frequency induction device is used for inducing radio frequency devices around the mobile device or on the ground.

In another aspect, the present application discloses a computer device comprising a memory and a processor, the memory having stored therein computer readable instructions, which, when executed by the processor, cause the processor to perform the steps of the method of controlling a networked fighting mobile device as defined in any one of the above.

In another aspect, the present application discloses a storage medium having stored thereon computer-readable instructions which, when executed by one or more processors, cause the one or more processors to perform the steps of any one of the above-described methods of controlling a networked fighting mobile device.

The beneficial effects of the embodiment of the application are that:

the technical scheme of this application, through the mode that the networking of short distance is paired, pair control end and mobile device, realize the networking fight under the line, and the networking fight under the line supports technical acquisition and loss, and the athletics is stronger with recreational, and the purpose that many people played is realized to the fight recreation, and is interactive stronger.

Drawings

The foregoing and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a flow chart of a method for controlling a networked fighting mobile device according to the present application;

FIG. 2 is a flowchart of a method for pairing the mobile device according to the pairing request;

fig. 3 is a flowchart of a method for pairing and connecting with the mobile terminal according to the first embodiment:

fig. 4 is a flowchart of a method for pairing connection with the mobile terminal according to the second embodiment;

FIG. 5 is a block diagram of a control device of the networked fighting mobile device according to the present application.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application.

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It will be understood by those within the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Referring to fig. 1, a method for controlling a mobile device for online battle is disclosed in this embodiment, which can perform multiplayer online battle, improve entertainment and improve interactivity of offline games. Specifically, the technical scheme of the application comprises the following steps:

s1000, obtaining a pairing request of the mobile equipment, wherein the pairing request comprises networking information of the mobile equipment, and the networking information comprises identity information of the mobile equipment and communication mechanism information of the mobile equipment;

the movable device can be controlled by the control end, and moves or executes related actions according to a control instruction sent by the control end. In an embodiment, the control end is connected with the mobile device in a wired or wireless manner, and sends the control instruction to the device of the mobile device, and the control end may be a computer terminal or other intelligent terminal, such as a mobile phone end, a control end, etc., wherein the control mode of the mobile phone end is to install and control the client APP of the mobile device at the mobile phone end, and control is performed after the control is performed by connecting with the mobile device and pairing the client APP.

The pairing request is information when the movable equipment is connected and communicated with the control end, and when the movable equipment is connected with the control end in a wired mode, the movable equipment automatically sends the pairing request to the control end after the control end is connected with the movable equipment through a data line. When the mobile device is connected with the control terminal in a wireless manner, the mobile device and the control terminal need to perform information interaction in a communication mode with the same mechanism, and in the process of establishing connection pairing, a pairing request sent by the mobile device includes networking information of the mobile device, where the networking information includes identity information of the mobile device and communication mechanism information of the mobile device, for example, a connection relationship is established simultaneously in a bluetooth manner, or a connection relationship is established simultaneously in a WIFI manner, or in other manners.

In the application, the communication mechanism is a communication signal which can be received, and the receiving modules of the respective signal receiving devices can be identified to have authority or have a function of receiving a certain signal, for example, for a WIFI signal and a bluetooth signal, the receiving devices must be provided with the WIFI receiving module capable of receiving the WIFI signal and the bluetooth receiving module capable of receiving the bluetooth signal in a matching manner, so that the WIFI signal and the bluetooth signal can be received, and therefore, the mobile device and the control terminal should be provided with the signal transmitting and receiving modules capable of being matched. The communication mechanism here may include a WIFI communication mechanism, may also include a bluetooth communication mechanism, or both signals.

The communication mechanism can be a WIFI communication mechanism, a Bluetooth communication mechanism and other signal mechanisms, the communication mechanism of each signal is different, identity identification and connection are performed through a specific identification, the identity information comprises first identity information and second identity information, the first identity information is identification information representing the type of the communication mechanism, the identification information can represent whether the signal is a WIFI signal or a Bluetooth signal or any other signal, and subsequent target signal identification and connection are performed through identifying the type of the communication signal.

Taking the communication signal as a WIFI signal as an example, at least one Access Point (AP) is required for receiving the WIFI reference to achieve one or more than one client (hi) interconnection. The AP broadcasts the SSID (service SetIdentifier) once every 100ms via beacons packet, the transmission rate of beacons packet is 1Mbit/s, and the length is quite short, so the broadcasting action has little influence on the network efficiency. Because the minimum transmission rate specified by WIFI is 1Mbit/s, it is ensured that all WIFI clients can receive the SSID broadcast packet, and the client can thereby determine whether to connect with the AP of the SSID. The WIFI system always opens the connection standard of the user side, and the connection standard contains identification information representing that the communication signal is a WIFI signal.

S2000, pairing the mobile devices according to the pairing request, wherein the mobile devices comprise one or more mobile devices;

after acquiring the pairing request of the mobile device in step S1000, the identity information of the mobile device is extracted from the networking information of the pairing request for pairing. Step S1000 discloses that the identity information includes first identity information and second identity information, and determines whether the signal receiving module of the current control end can receive the communication signal of the type by recognizing the first identity information, and further obtains the second identity information when the communication signal can be received, where the second identity information is information with an identity of the mobile device, for example, the second identity information includes a model of the mobile device that transmits the communication information, and the device that can be paired is selected by recognizing a name. For example, the model of the mobile device that the control end can be paired includes a model a01 of a manufacturer, a model a03, a model B02 of a manufacturer, a signal B06, and the like, and only when the model information included in the communication signal is identified as the above-mentioned pairable model, the subsequent identification operation is performed.

Further, in an embodiment, an identity list capable of being connected and paired is preset in the mobile device, and after the identity information transmitted by the mobile device is recognized, the recognized identity information is compared in the identity list one by one, and only the communication signal of the recognized second identity information in the identity list is allowed to be paired.

And if the pairing is successful, the mobile equipment and the control terminal can be controlled through the control terminal. In the application, the control end can be connected and communicated with only one movable device, and can also be connected and communicated with a plurality of movable devices simultaneously, and when the control end is connected and communicated with only one movable device, the control instruction sent by the control end only controls the movable device. When one control end controls a plurality of movable devices simultaneously, the plurality of movable devices can be controlled, and the number of the movable device to be controlled is selected to be switched in the control process.

S3000, receiving operation data from the movable equipment, wherein the operation data comprises an operation path of the movable equipment and a skill parameter of the movable equipment;

the control end receives operation data from the one or more movable devices while controlling the movable devices, wherein the operation data is based on the action executed by the last control operation, and in one embodiment, the operation data comprises the operation path of the movable devices and the skill parameters of the movable devices. The operation path is a path when the movable equipment moves after responding to a control command of the control end, and the operation path in the operation data of the movable equipment is obtained by a displacement sensing device arranged on the movable equipment. In this embodiment, the displacement sensing device includes a speed sensor and a direction sensor, and the moving distance of the mobile device is calculated by sensing the speed per unit time and the running time, and the displacement of the mobile terminal is obtained by monitoring the direction during the running process.

In an embodiment, the mobile device skill parameter of the operation data of the mobile device is obtained by a sensing device on the mobile device, wherein the sensing device comprises an infrared sensing device and/or a radio frequency sensing device. The sensing device may only include the infrared sensing device, only include the radio frequency sensing device, or include both the infrared sensing device and the radio frequency sensing device. The infrared induction device is used for inducing infrared signals emitted by other mobile equipment, and the radio frequency induction device is used for inducing radio frequency devices around the mobile equipment or on the ground.

The infrared sensing device can sense the distance of surrounding obstacles and other movable equipment, for example, infrared transmitting devices are also installed on other movable equipment, the infrared sensing device can sense the infrared transmitted by other movable equipment, when each infrared sensing device is adjusted, different infrared rays can be transmitted by different movable equipment, and the received infrared rays can be identified according to the received infrared rays, and the received infrared rays are transmitted from the movable equipment and the infrared transmitting devices.

In one embodiment, the infrared sensing device may be used as a "weapon" in a battle game, when the current mobile device receives infrared beams from other mobile devices, it indicates that the opponent has hit a target, and the emission frequency of the infrared is adjusted to identify which mobile device has emitted an infrared signal from which infrared emission device by identifying the frequency of the received infrared. When applied in combat, it is possible to identify which "weapon" hits the target.

When the functions are applied to a battle, mobile equipment skill parameters can be preset for each piece of mobile equipment, in a specific battle, the mobile equipment skill parameters comprise a life value, skill transmitting times, an attack list and the like, wherein the life value represents the period of participation of the mobile equipment in game competition, the preset life value with corresponding quantity is lost when the mobile equipment is attacked once, when the life value is 0, the mobile equipment stops participating in the battle and is attacked differently, the number of the lost life values is different, and the attack type and the lost life value take data in the attack list as reference. Further, the attack list also includes types of "rewards" and reward values corresponding to the types of "rewards", where the types of "rewards" include acquisition and promotion of skills after hitting the target, promotion of experience values, and the like. And the control end judges the current fighting condition by acquiring the operation data.

And S4000, responding to the user operation to generate a control instruction and sending the control instruction to the movable equipment so as to enable the movable equipment to execute the control instruction.

The user executes control operation at the control end according to the acquired current operation data of the movable equipment, the control end responds to the user operation to generate a control instruction after receiving the control operation of the user and sends the control instruction to the movable equipment, and the movable equipment analyzes the control instruction after receiving the control instruction and completes corresponding action according to the control instruction.

The technical scheme of this application, through the mode that the networking of short distance is paired, pair control end and mobile device, realize the networking fight under the line, and the networking fight under the line supports technical acquisition and loss, and the athletics is stronger with recreational, and the purpose that many people played is realized to the fight recreation, and is interactive stronger.

In an embodiment, the pairing request for pairing the mobile device includes allocating a queue to the mobile device, where the queue is provided in plural, and each queue includes one or more mobile devices. According to the technical scheme of the embodiment, the alignment distribution is carried out according to different movable devices so as to achieve the aim of multi-person battle. In this embodiment, the queue allocation request is included in the pairing request, and the queue to which the mobile device belongs is selected while the mobile device requests connection with the control terminal, so as to implement the dequeue match. The queue comprises two or more than two queues to realize 1V1 fight or mixed fight. In one embodiment, each queue may contain one or more of the mobile devices, thereby allowing many-to-many competitive competitions to be played, enhancing the interest and excitement of the game.

It should be noted that, in the above-mentioned multi-pair, under the condition of multi-person battle, the control end paired with each mobile device is connected to the same network, in an embodiment, the control ends are connected to the same local area network for data interaction, and the control end uploads the acquired operation data of the mobile device and the generated control instruction to the remote server for data storage in the sequence of the time axis, which is convenient for subsequent checking and record query.

In an embodiment, referring to fig. 2, the method for pairing the removable device according to the pairing request includes:

s2100, acquiring a target signal sent by the mobile equipment in a broadcasting mode;

the target signal is a signal which is transmitted by the movable equipment and can be received by the control terminal to realize pairing. The target signal is transmitted in a broadcasting mode, and after the signal receiving device at the control end identifies the target information number transmitted in the broadcasting mode, the signal receiving device at the control end receives the target information number according to a certain rule. In an embodiment, the target signal is a WIFI signal, a WIFI module is installed in the mobile device, and when the WIFI module is activated, the WIFI signal is sent out in a broadcast mode. In another embodiment, the target signal is a bluetooth signal, a bluetooth module is installed in the mobile device, and when the bluetooth module is activated, the bluetooth signal is transmitted to the outside in a broadcast manner. In another embodiment, the target signal may also include a WIFI signal and a bluetooth signal at the same time, that is, a WIFI module and a bluetooth module are installed in the mobile device at the same time, and both operate according to a certain rule. One scheme is that only a WIFI module or a Bluetooth module which is selected to be started by a user is used; the other scheme is that the WIFI module is automatically and preferentially enabled, and within a preset time threshold value, the Bluetooth module is automatically started to continue to be connected and paired if the WIFI module is not connected and paired. Further, the scheme can also be that the WIFI module and the Bluetooth module are started simultaneously, and the WIFI signal and the Bluetooth signal are sent simultaneously, so that any one of the signals can be identified and paired. And the other scheme is as follows: the type of the received communication signal is recognized, and then a receiving module of the type is automatically started to recognize and receive the target signal.

S2200, judging whether the target signal meets a preset condition, wherein the preset condition comprises that the receiving intensity of the target signal is within a preset threshold value;

the preset condition is condition information set in the process of configuring the control terminal and the mobile device, and whether the target information number meets the preset condition needs to be judged in the process of executing final pairing. In an embodiment, the preset condition includes that the strength of the target signal is within a preset threshold. The preset threshold is a preset critical value capable of judging whether the intensity of the target information meets the requirement or not. It should be noted that, in general, the strength of the signal includes a receiving strength and a transmitting strength, the transmitting strength is a strength of the signal transmitted from the signal transmitting module of the mobile device, and the receiving strength is a strength of the signal received by the control terminal at the current position, because the signal is also attenuated with increasing distance, the signal receiving device at the control terminal can only receive the signal with the signal strength within a certain range, and therefore, when the distance between the control terminal and the mobile device is too far, the signal may not be received.

And S2300, when the preset condition is met, connecting the mobile terminal in a pairing way.

When the preset conditions disclosed above are met, the current receiving strength of the target signal is in accordance with the purpose of smooth and stable communication, so that the control end can further recognize the target signal, access the target signal to the control end to pair with the mobile device, and execute subsequent control actions.

The technical scheme of this application need not to let mobile device pair with the control end through connecting wire and connection interface and is connected, only needs the control end to receive the target signal that comes from mobile device to satisfy certain preset condition and can pair automatically, and is further, adopts the mode that wireless connection pairs, makes control end one be close to mobile device, and lies in certain distance range, then can connect automatically and pair, and the mode of pairing is simple, and the device of pairing is also simpler.

In an embodiment, referring to fig. 3, the method for pairing and connecting with the mobile terminal includes:

s2310, acquiring the number of the target signals;

s2320, when the number of the target signals is greater than or equal to 2, acquiring a historical connection record corresponding to a preset identifier;

s2330, select the target signal with the largest number of connections in the historical connection record and pair.

Since there may be two or more target signals obtained, and generally, one control end can only pair with one mobile device, when there are multiple mobile devices broadcasting communication signals, the signals need to be selected. In this embodiment, in the process of performing selective pairing at the control end, the number of the target signals is identified first, when the number of the target signals is greater than or equal to 2, the historical connection records are queried through local query or network server query according to preset identification information of the target signals, where the preset identification information is second identity information, and through the second identity information, the historical connection records can be obtained locally or in the server, where the historical connection records include information of connection time, connection times, and the like, and the target signal with the largest connection time in the historical connection records is selected for pairing. In one embodiment. When the control end and the movable equipment are paired, the parameter equipment is required to be respectively carried out, and when the equipment which is once paired is connected again, the configuration parameters can be directly obtained to carry out rapid pairing without carrying out parameter obtaining and pairing again, so that the pairing time is saved. The configuration parameters include confirmation of model, account password and other information. And when the first pairing process is finished, storing the related configuration information so as to automatically identify the parameters and automatically connect the parameters when the next configuration is carried out.

In another embodiment, referring to fig. 4, the method for pairing and connecting with the mobile terminal includes:

s2340, acquiring the number of the target signals;

s2350, comparing the intensity of each target signal when the number of the target signals is greater than or equal to 2;

s2360, the pairing with the strongest receiving intensity of the target signal is selected.

In this embodiment, the number of the target signals is obtained first, and when the number of the target signals is greater than or equal to 2, the communication strengths of the target signals are compared, and the strongest target signal is selected for pairing.

The strength of the target signal here refers to the current reception strength of the target signal. According to the principle of the communication receiving strength in the above steps, the receiving strength of the target signal is related to the transmitting strength of the target signal by the distance between the transmitting position and the receiving position of the target signal, and when the transmitting strength of the second signal is higher, the receiving strength of the target signal is also higher in the same receiving position, and the communication is more stable and smooth. Similarly, with the same intensity of transmission, the closer the transmission position is to the reception position, the stronger the reception intensity, and the more stable and smooth the communication is. Therefore, the target signal with the strongest receiving strength is selected to be paired with the control end.

On the other hand, referring to fig. 5, the present application discloses a control device for a networked fighting mobile device, comprising:

the acquisition module 1000: configured to perform a pairing request to obtain a removable device, wherein the pairing request includes networking information of the removable device, the networking information including identity information of the mobile device and communication mechanism information of the mobile device;

pairing module 2000: configured to perform pairing of the removable devices according to the pairing request, wherein the removable devices comprise one or more;

the receiving module 3000: configured to perform receiving operational data from the movable device, wherein the operational data comprises a path of travel of the movable device and a mobile device skill parameter;

the response module 4000: is configured to generate and send control instructions to the removable device in response to user operations to cause the removable device to execute the control instructions.

Optionally, the pairing request for pairing the mobile device includes allocating a queue to the mobile device, where the queue is provided in multiple numbers, and each queue includes one or more mobile devices.

Optionally, the pairing module further includes:

a target signal acquisition module: configured to perform acquisition of a target signal transmitted by the removable device in a broadcast manner;

a judging module: configured to perform a determination of whether the target signal meets a preset condition, wherein the preset condition includes that a reception intensity of the target signal is within a preset threshold;

a pairing execution module: and the mobile terminal is configured to execute pairing connection with the mobile terminal when the preset condition is met.

Optionally, the pairing execution module further includes:

a first quantity acquisition module: a number configured to perform acquiring the target signal;

a history acquisition module: the device is configured to execute the step of acquiring a historical connection record corresponding to a preset identifier when the number of the target signals is greater than or equal to 2;

a first pairing execution submodule: configured to perform selecting the target signal with the largest number of connections in the historical connection record for pairing.

Optionally, the pairing execution module further includes:

a second quantity acquisition module: a number configured to perform acquiring the target signal;

a comparison module: configured to perform comparing the intensities of the respective target signals when the number of target signals is greater than or equal to 2;

and the selecting module is configured to perform the pairing of the selected target signal with the strongest receiving strength.

Optionally, the operation path in the operation data of the movable device is obtained by a displacement sensing device mounted on the movable device.

Optionally, the mobile device skill parameter of the operation data of the mobile device is obtained by an induction device on the mobile device, wherein the induction device includes an infrared induction device and/or a radio frequency induction device, the infrared induction device is used for inducing infrared signals emitted by other mobile devices, and the radio frequency induction device is used for inducing radio frequency devices around the mobile device or on the ground.

The control device of the networked fighting mobile equipment is a device with the control methods of the networked fighting mobile equipment in one-to-one correspondence, the control devices and the corresponding control methods are in one-to-one correspondence, the principles are communicated, and the detailed description is omitted here.

The present invention also provides a storage medium storing computer-readable instructions which, when executed by one or more processors, cause the one or more processors to perform the method of controlling a networked fighting mobile device according to any of the embodiments described above.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and can include the processes of the embodiments of the methods described above when the computer program is executed. The storage medium may be a non-volatile storage medium such as a magnetic disk, an optical disk, a Read-Only Memory (ROM), or a Random Access Memory (RAM).

It should be understood that, although the steps in the flowcharts of the figures are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and may be performed in other orders unless explicitly stated herein. Moreover, at least a portion of the steps in the flow chart of the figure may include multiple sub-steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

The foregoing is only a partial embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A control method for a networked fighting mobile device is characterized by comprising the following steps:

the method comprises the steps of obtaining a pairing request of the movable equipment, wherein the pairing request comprises networking information of the movable equipment, and the networking information comprises identity information of the mobile equipment and communication mechanism information of the mobile equipment;

pairing the movable equipment according to the pairing request, wherein the movable equipment comprises one or more than one;

receiving operational data from the movable device, wherein the operational data includes a path of travel of the movable device and a mobile device skill parameter;

and generating a control instruction in response to the user operation and sending the control instruction to the movable equipment so as to enable the movable equipment to execute the control instruction.

2. The method of claim 1, wherein said requesting pairing of said mobile devices comprises assigning a queue to said mobile devices, wherein said queue is provided in plurality, and each queue contains one or more of said mobile devices.

3. The method of claim 1, wherein the method of pairing the mobile device according to the pairing request comprises:

acquiring a target signal transmitted by the mobile equipment in a broadcasting mode;

judging whether the target signal meets a preset condition or not, wherein the preset condition comprises that the receiving intensity of the target signal is within a preset threshold value;

and when the preset condition is met, the mobile terminal is connected with the mobile terminal in a pairing way.

4. The method of controlling networked fighting mobile devices as recited in claim 3, wherein said method of pairing said mobile terminals comprises:

acquiring the number of the target signals;

when the number of the target signals is greater than or equal to 2, acquiring a historical connection record corresponding to a preset identifier;

and selecting the target signal with the maximum connection times in the historical connection records for pairing.

5. The method of claim 3, wherein the method of pairing the mobile terminal comprises:

acquiring the number of the target signals;

comparing the intensity of each target signal when the number of the target signals is greater than or equal to 2;

and selecting the target signal with the strongest receiving intensity for pairing.

6. The method of controlling a networked fighting mobile device as recited in claim 1, wherein the travel path in the operational data of the mobile device is obtained by a displacement sensing means mounted on the mobile device.

7. The method for controlling a networked fighting mobile device as recited in claim 1, wherein the mobile device skill parameter of the operational data of the mobile device is obtained by a sensing device on the mobile device, wherein the sensing device comprises an infrared sensing device for sensing infrared signals emitted from other mobile devices and/or a radio frequency sensing device for sensing radio frequency devices around the mobile device or on the ground.

8. A control device for a networked fighting mobile device, comprising:

an acquisition module: configured to perform a pairing request to obtain a removable device, wherein the pairing request includes networking information of the removable device;

a pairing module: configured to perform pairing of the removable device according to the pairing request;

a receiving module: configured to perform receiving operational data from the movable device, wherein the operational data comprises a path of travel of the movable device and a mobile device skill parameter;

a response module: is configured to generate and send control instructions to the removable device in response to user operations to cause the removable device to execute the control instructions.

9. A computer device comprising a memory and a processor, the memory having stored therein computer readable instructions which, when executed by the processor, cause the processor to perform the steps of the method of controlling a networked fighting mobile device according to any of claims 1 to 7.

10. A storage medium storing computer readable instructions which, when executed by one or more processors, cause the one or more processors to perform the steps of the method of controlling a networked fighting mobile device according to any of claims 1 to 7.

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