CN115052300A - Multi-networking offline voice control method and system - Google Patents

Abstract

The invention provides a control method and a control system for offline voice control of multiple networks, which are applied to the technical field of voice control; acquiring the coverage rate of currently used signals of the multi-networking equipment; judging whether the signal coverage rate is greater than a preset utilization rate or not; if not, acquiring the operation mode of the multi-group networking equipment according to the bridging node of the multi-group networking equipment; judging whether the running mode is matched with the current equipment consumed power; if yes, adopting a preset voice instruction to control and reset the multi-group network equipment; according to the invention, whether the current running state of the multi-group network equipment accords with the preset reset state of the system is obtained, and the voice instruction pre-recorded by the system is adopted to reset the multi-group network equipment, so that the multi-group network equipment can be reset from the single-group network running state to the multi-group network running state even if the multi-group network equipment is off-line, and the due practicability of the multi-group network equipment is effectively improved.

Description

Multi-networking offline voice control method and system

Technical Field

The invention relates to the technical field of voice control, in particular to a control method and a control system for offline voice control of multiple networks.

Background

Artificial intelligence is one of the most active fields of high-tech research at the present frontier, and can complete service work beneficial to human beings, such as providing services of housework, entertainment, leisure, education, safety monitoring and the like, and has wide potential customer groups and markets.

In view of the above, the present invention provides a method and a system for controlling offline voice control in multi-networking, so as to solve the above-mentioned problems.

Disclosure of Invention

The invention aims to solve the problem that multi-group network equipment is changed into single-group network equipment due to offline, and provides a multi-group network offline voice control method and a multi-group network offline voice control system.

The invention adopts the following technical means for solving the technical problems:

the invention provides a control method of offline voice control of multiple networks, which comprises the following steps:

acquiring the coverage rate of a currently used signal of the multi-networking device;

judging whether the signal coverage rate is greater than a preset utilization rate or not;

if not, acquiring the operation mode of the multi-group networking equipment according to the bridging node of the multi-group networking equipment;

judging whether the running mode is matched with the current equipment consumed power;

if yes, a preset voice command is adopted to control and reset the multi-group network equipment.

Further, before the step of resetting the multi-networking device by using a preset voice instruction, the method includes:

acquiring a voice instruction for controlling the multi-networking equipment;

judging whether the instruction is matched with a preset control key or not;

and if so, enabling the multi-networking equipment to execute corresponding content according to the instruction.

Further, before the step of obtaining the coverage rate currently used by the multi-networking device, the method includes:

acquiring a transmission line in the operation process of the multi-networking equipment;

judging whether the transmission line can be transmitted to a preset line path or not;

if not, judging that the multi-networking equipment needs to be controlled according to the voice instruction currently.

Further, the step of obtaining the coverage rate currently used by the multi-networking device includes:

acquiring signal frequency bands of the multi-group network equipment;

judging whether the signal frequency band is in a preset detection frequency band or not;

if not, the multi-networking equipment is judged to be in an off-line operation state.

Further, before the step of obtaining the operation mode of the multi-networking device according to the bridge node of the multi-networking device, the method includes:

acquiring a bridging node of the multi-group network equipment;

judging whether the bridge node is matched with the current bridge path of the multi-group network equipment;

if not, judging that the multi-networking equipment is currently in a state of waiting for voice control.

Further, the step of obtaining the operation mode of the multi-networking device according to the bridge node of the multi-networking device includes:

acquiring the current state required to enter by the multi-group network equipment;

inputting a preset instruction to the multiunit network according to the state;

judging whether the preset instruction can be identified by the multi-networking equipment or not;

if not, the multi-networking equipment is judged to be in the single-networking running state.

Further, the step of controlling and resetting the multi-networking device by using a preset voice command includes:

acquiring a preset reset voice command;

judging whether the command conforms to the state of the current multi-networking device to be executed;

and if so, adopting the reset voice command to reset the multi-group network equipment.

The invention also provides a control system for multi-networking offline voice control, which comprises:

the first acquisition module is used for acquiring the coverage rate of the currently used signal of the multi-networking equipment;

the first judgment module is used for judging whether the signal coverage rate is greater than a preset utilization rate or not;

the first execution module is used for acquiring the operation mode of the multi-group network equipment according to the bridging node of the multi-group network equipment if the operation mode is not the same as the operation mode of the multi-group network equipment;

the second judgment module is used for judging whether the running mode is matched with the current equipment consumption power;

and the second execution module is used for adopting a preset voice instruction to control and reset the multi-group network equipment if the second execution module is yes.

Further, still include:

the second acquisition module is used for acquiring a voice instruction which needs to control the multi-group network equipment;

the third judgment module is used for judging whether the instruction is matched with a preset control key;

and if so, enabling the multi-networking equipment to execute corresponding content according to the instruction.

Further, the method also comprises the following steps:

the third acquisition module is used for acquiring a transmission line in the operation process of the multi-networking equipment;

the fourth judging module is used for judging whether the transmission line can be transmitted to a preset line path or not;

and the fourth execution module is used for judging that the multi-networking equipment needs to be controlled currently according to the voice instruction if the multi-networking equipment does not need to be controlled currently.

The invention provides a control method and a control system for offline voice control of multiple networks, which have the following beneficial effects:

according to the invention, whether the current running state of the multi-group network equipment accords with the preset reset state of the system is obtained, and the voice instruction pre-recorded by the system is adopted to reset the multi-group network equipment, so that the multi-group network equipment can be reset from the single-group network running state to the multi-group network running state even if the multi-group network equipment is off-line, and the due practicability of the multi-group network equipment is effectively improved.

Drawings

Fig. 1 is a schematic flowchart of an embodiment of a control method for offline voice control of multiple networks according to the present invention;

fig. 2 is a block diagram of an embodiment of a multi-networking offline voice-controlled control system according to the present invention.

Detailed Description

It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not to be considered as limiting thereof, since the objects, features and advantages thereof will be further described with reference to the accompanying drawings.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a control method for offline voice control of multiple networks in an embodiment of the present invention includes the following steps:

s1: acquiring the coverage rate of a currently used signal of the multi-networking device;

s2: judging whether the signal coverage rate is greater than a preset utilization rate or not;

s3: if not, acquiring the operation mode of the multi-group network equipment according to the bridging node of the multi-group network equipment;

s4: judging whether the running mode is matched with the current equipment consumed power;

s5: if yes, a preset voice command is adopted to control and reset the multi-group network equipment.

In this embodiment, the system obtains the current operating mode of the multi-group network device by obtaining the current signal coverage rate of the multi-group network device and according to the preset signal utilization rate of the multi-group network device during normal operation; for example, the system acquires that the coverage rate of the currently used signal of the multi-group network device is 55%, and the preset signal utilization rate of the multi-group network is greater than or equal to 60% in normal operation, that is, the operation of the multi-group network device is in an abnormal single-group network operation state at this time; for example, the system acquires that the coverage rate of the currently used signal of the multi-networking device is 67%, and the preset signal utilization rate of the known multi-networking device is greater than or equal to 60% in normal operation, that is, the operation of the multi-networking device is in a normal multi-networking operation state at this time; the system can know that the current abnormal state of the multi-group network equipment is in independent operation of the multi-group network equipment or the multi-group network equipment is in separate operation according to the preset equipment consumption power of the multi-group network equipment by acquiring the current operation state of the multi-group network equipment; for example, the system acquires that the current device consumption power of the multi-networking device is 24W, and the power consumed by the multi-networking device during normal operation is 36W, that is, the current operation state of the multi-networking device is determined to be abnormal, it should be noted that the multi-networking device is composed of a plurality of single-group devices, the consumption power of each single-group device is 12W, that is, the abnormal state of the multi-networking device at this time belongs to the independent operation of the multi-networking device; when the current consumed power of the multi-group network equipment is not 12W, 24W or 36W, namely the multi-group network equipment is in an abnormal state in which the multi-group network equipment operates separately; at the moment, the system needs to control the multi-networking equipment according to the pre-recorded offline voice instruction and reset the multi-networking equipment, when the system knows that the multi-networking equipment is in an abnormal state, the voice instruction is obtained by adopting the voice receiving device and is compared with the pre-recorded offline voice instruction, if the voice instruction is matched with the pre-recorded offline voice instruction, the multi-networking equipment can be controlled, and the running state of the multi-networking equipment is reset; if the voice instruction is not matched with the off-line voice instruction which is recorded in advance, the multi-group network equipment cannot be controlled, and a prompt for prompting the error of the voice instruction is sent through the system.

In this embodiment, before the step S5 of resetting the multi-networking device by using a preset voice instruction, the method includes:

s501: acquiring a voice instruction for controlling the multi-networking equipment;

s502: judging whether the instruction is matched with a preset control key or not;

s503: and if so, enabling the multi-networking equipment to execute corresponding content according to the instruction.

In this embodiment, the system acquires a current voice instruction for controlling the multiple sets of network devices by using the voice recording apparatus, and determines whether to control the multiple sets of network devices and reset or execute other instructions according to a preset control key of the multiple sets of network devices; for example, the system acquires a voice instruction that 'reset multi-networking device 5' for controlling the multi-networking device has a preset word 5, and the control key preset by the system has the main number 5 except 'reset multi-networking device', that is, the system can recognize that the acquired voice instruction matches the preset control key, that is, the system can control and reset the multi-networking device; for example, the system acquires a voice instruction "reset multigroup networking equipment" for controlling multigroup networking equipment, and although the system recognizes "reset multigroup networking equipment", the voice instruction does not refer to the number 5 related to the control key, that is, the system cannot recognize that the voice instruction matches the preset control key, that is, cannot control multigroup networking equipment.

In this embodiment, before the step S1 of obtaining the coverage rate currently used by the multi-networking device, the method includes:

s101: acquiring a transmission line in the operation process of the multi-networking equipment;

s102: judging whether the transmission line can be transmitted to a preset line path or not;

s103: if not, judging that the multi-networking equipment needs to be controlled according to the voice instruction currently.

In this embodiment, the system can determine whether the multi-group network device needs to be controlled by a voice instruction according to a preset line path of the multi-group network device by acquiring a transmission line of a signal when the multi-group network device operates; for example, the signal transmission line obtained by the system in the operation process of the multi-networking device is 1: 1: 1, and the line path preset by the system is 2: 2: 2, the present signal transmission line of multiunit network equipment does not match predetermined line procedure promptly, needs the system to obtain and resets multiunit network equipment after the instruction of resetting multiunit network equipment to make multiunit network equipment resume to be 2: 2: 2; for example, the signal transmission line obtained by the system in the operation process of the multi-networking device is 2: 2: 2, the preset line path in the known system is 2: 2: 2, that is, the current signal transmission line of the multi-networking device matches the preset line path, and the multi-networking device does not need to be reset after the system acquires the instruction for resetting the multi-networking device.

In this embodiment, the step S1 of obtaining the coverage rate currently used by the multi-networking device includes:

s11: acquiring signal frequency bands of the multi-group network equipment;

s12: judging whether the signal frequency band is in a preset detection frequency band or not;

s13: if not, the multi-networking equipment is judged to be in an off-line operation state.

In this embodiment, the system determines the current operating state of the multi-networking device according to the detection frequency band in which the signal should be located when the multi-networking device operates by acquiring the signal frequency band of the multi-networking device; for example, when the system acquires that the current operating signal frequency band of the multi-networking device is 697Mhz, and the online operating signal of the multi-networking device is 894Mhz-934Mhz, that is, the current signal frequency band of the multi-networking device is not in the preset detection frequency band, that is, the operating state of the multi-networking device is determined to be the offline operating state; for example, when the system acquires that the current operating signal frequency band of the multi-networking device is at 914Mhz, and it is known that the signal should be between 894Mhz and 934Mhz when the multi-networking device operates online, that is, the current signal frequency band of the multi-networking device is within the preset detection frequency band, that is, the operating state of the multi-networking device is determined to be the online operating state.

In this embodiment, before the step S3 of acquiring the operation mode of the multi-networking device according to the bridge node of the multi-networking device, the method includes:

s301: acquiring a bridging node of the multi-group network equipment;

s302: judging whether the bridge node is matched with the current bridge path of the multi-group network equipment;

s303: if not, judging that the multi-networking equipment is currently in a state of waiting for voice control.

In this embodiment, the system determines whether the multi-group network device needs to perform voice control currently according to the bridge diameter of the multi-group network device in the running state by acquiring the bridge node of the multi-group network device; for example, the system acquires that all bridge nodes of the multi-networking device are connected to each corresponding device of the multi-networking device, and the bridge diameter preset by the multi-networking device is successfully applied by all bridge nodes, that is, the control state of the multi-networking device does not need to be controlled at this time; for example, when it is known that bridge paths preset by the multi-networking device need to be successfully applied by all bridge nodes, it is determined that the multi-networking device needs to perform voice control at this time, and the current multi-networking device is already in a state of waiting for voice control because part of the bridge paths are not applied.

In this embodiment, the step S3 of acquiring the operation mode of the multi-networking device according to the bridge node of the multi-networking device includes:

s31: acquiring the current state required to enter by the multi-group network equipment;

s32: inputting a preset instruction to the multiunit network according to the state;

s33: judging whether the preset instruction can be identified by the multi-group network equipment or not;

s34: if not, the multi-networking equipment is judged to be in the single-networking running state.

In this embodiment, the system determines whether the multi-networking device can be identified by acquiring the current running state that the multi-networking device needs to enter, and inputting an instruction corresponding to the running state that the multi-networking device needs to enter into according to a preset instruction; for example, the system acquires that the current state required to enter by the multi-networking device is a full-speed operation state, that is, a corresponding instruction of 'full-speed operation' is input into the multi-networking device, and after the multi-networking device receives the instruction, the content corresponding to the instruction cannot be identified, that is, it can be determined that the multi-networking device is in a single-networking operation state and cannot execute an operation instruction in the multi-networking operation state; for example, the system acquires that the current state required to be entered by the multi-networking device is "power reduction" to the multi-networking device, and after receiving the instruction, the multi-networking device recognizes the content corresponding to the instruction, that is, it can be determined that the multi-networking device is in the multi-networking operating state, and can recognize the operating instruction and execute the content corresponding to the operating instruction.

In this embodiment, the step S5 of controlling and resetting the multi-networking device by using a preset voice command includes:

s51: acquiring a preset reset voice command;

s52: judging whether the command conforms to the state of the current multi-networking device to be executed;

s53: and if so, adopting the reset voice command to reset the multi-group network equipment.

In this embodiment, the system determines whether the corresponding command needs to be executed according to the current state that the multi-networking device should execute by acquiring the current voice command that needs to be reset for the multi-networking device and the voice command that is recorded in advance by the system and used for resetting the multi-networking device; for example, the system acquires that the current voice instruction for resetting the multiple networking devices is 'reset multiple networking devices', and the preset reset voice command of the multiple networking devices is 'reset multiple networking devices', that is, the multiple networking devices recognize the voice instruction at this time, but if the multiple networking devices operate normally at this time, even if the voice instruction is recognized, the multiple networking devices cannot be reset accordingly; for example, when the system acquires that the current voice instruction required to reset the multi-networking device is "reset multi-networking device", and when it is known that the preset reset voice command of the multi-networking device is "reset multi-networking device", that is, the multi-networking device recognizes the voice instruction, and the system determines that the multi-networking device really needs to be reset when the current operation state of the multi-networking device is abnormal, the system will reset the multi-networking device after confirming.

Referring to fig. 2, a control system for offline voice control of multiple networks according to an embodiment of the present invention includes:

a first obtaining module 10, configured to obtain coverage of a currently used signal of a multi-networking device;

a first determining module 20, configured to determine whether the signal coverage is greater than a preset utilization rate;

a first executing module 30, configured to, if not, obtain an operating mode of the multi-networking device according to a bridge node of the multi-networking device;

a second judging module 40, configured to judge whether the operation mode matches a current device consumption power;

and the second execution module 50 is configured to, if yes, control and reset the multi-networking device by using a preset voice instruction.

In this embodiment, the first obtaining module 10 obtains a current signal coverage rate used by the multi-networking device, and the first determining module 20 obtains, according to a preset signal utilization rate when the multi-networking device operates normally, a current operating mode of the multi-networking device and the multi-networking device by the first executing module 30; for example, the system acquires that the coverage rate of the currently used signal of the multi-group network device is 55%, and the preset signal utilization rate of the multi-group network is greater than or equal to 60% in normal operation, that is, the operation of the multi-group network device is in an abnormal single-group network operation state at this time; for example, the system acquires that the coverage rate of the currently used signal of the multi-networking device is 67%, and the preset signal utilization rate of the known multi-networking device is greater than or equal to 60% in normal operation, that is, the operation of the multi-networking device is in a normal multi-networking operation state at this time; the system can know that the current abnormal state of the multi-group network equipment is in the independent operation of the multi-group network equipment or the separate operation of the multi-group network equipment by acquiring the current operation state of the multi-group network equipment and the second judging module 40 according to the preset equipment consumption power of the multi-group network equipment; for example, the system acquires that the current device consumption power of the multi-networking device is 24W, and the power consumed by the multi-networking device during normal operation is 36W, that is, the current operation state of the multi-networking device is determined to be abnormal, it should be noted that the multi-networking device is composed of a plurality of single-group devices, the consumption power of each single-group device is 12W, that is, the abnormal state of the multi-networking device at this time belongs to the independent operation of the multi-networking device; when the current consumed power of the multi-group network equipment is not 12W, 24W or 36W, namely the multi-group network equipment is in an abnormal state in which the multi-group network equipment operates separately; at the moment, the system needs to control the multi-networking equipment according to the pre-recorded off-line voice instruction and reset the multi-networking equipment, when the system knows that the multi-networking equipment is in an abnormal state, the voice instruction is obtained by adopting the voice receiving device and is compared with the off-line voice instruction which is recorded in advance, if the voice instruction is matched with the off-line voice instruction which is recorded in advance, the multi-networking equipment can be controlled, and the second execution module 50 resets the running state of the multi-networking equipment; if the voice instruction is not matched with the off-line voice instruction which is recorded in advance, the multi-group network equipment cannot be controlled, and a prompt for prompting the error of the voice instruction is sent through the system.

In this embodiment, the method further includes:

the second acquisition module is used for acquiring a voice instruction which needs to control the multi-group network equipment;

the third judgment module is used for judging whether the instruction is matched with a preset control key;

and if so, enabling the multi-networking equipment to execute corresponding content according to the instruction.

In this embodiment, the system acquires a current voice instruction for controlling the multiple sets of network devices by using the voice recording apparatus, and determines whether to control the multiple sets of network devices and reset or execute other instructions according to a preset control key of the multiple sets of network devices; for example, the system acquires a voice instruction that 'reset multi-networking device 5' for controlling the multi-networking device has a preset word 5, and the control key preset by the system has the main number 5 except 'reset multi-networking device', that is, the system can recognize that the acquired voice instruction matches the preset control key, that is, the system can control and reset the multi-networking device; for example, the system acquires a voice instruction "reset multigroup networking equipment" for controlling multigroup networking equipment, and although the system recognizes "reset multigroup networking equipment", the voice instruction does not refer to the number 5 related to the control key, that is, the system cannot recognize that the voice instruction matches the preset control key, that is, cannot control multigroup networking equipment.

In this embodiment, the method further includes:

the third acquisition module is used for acquiring a transmission line in the operation process of the multi-networking equipment;

the fourth judging module is used for judging whether the transmission line can be transmitted to a preset line path or not;

and the fourth execution module is used for judging that the multi-networking equipment needs to be controlled currently according to the voice instruction if the multi-networking equipment does not need to be controlled currently.

In this embodiment, the system can determine whether the multi-group network device needs to be controlled by a voice instruction according to a preset line path of the multi-group network device by acquiring a transmission line of a signal when the multi-group network device operates; for example, the signal transmission line obtained by the system in the operation process of the multi-networking device is 1: 1: 1, and the line path preset by the system is 2: 2: 2, the present signal transmission line of multiunit network equipment does not match the line procedure of predetermineeing promptly, needs the system to obtain and resets multiunit network equipment after the instruction of resetting multiunit network equipment to make multiunit network equipment resume to 2: 2: 2; for example, the signal transmission line obtained by the system in the operation process of the multi-networking device is 2: 2: 2, the preset line path in the known system is 2: 2: 2, that is, the current signal transmission line of the multi-networking device matches the preset line path, and the multi-networking device does not need to be reset after the system acquires the instruction for resetting the multi-networking device.

In this embodiment, the first obtaining module further includes:

a first obtaining unit, configured to obtain a signal frequency band of the multi-networking device;

the first judgment unit is used for judging whether the signal frequency band is in a preset detection frequency band or not;

and the first execution unit is used for judging that the multi-networking equipment is in an offline operation state if the multi-networking equipment is not in the offline operation state.

In this embodiment, the system determines the current operating state of the multi-networking device according to the detection frequency band in which the signal should be located when the multi-networking device operates by acquiring the signal frequency band of the multi-networking device; for example, when the system acquires that the current operating signal frequency band of the multi-networking device is 697Mhz, and the online operating signal of the multi-networking device is 894Mhz-934Mhz, that is, the current signal frequency band of the multi-networking device is not in the preset detection frequency band, that is, the operating state of the multi-networking device is determined to be the offline operating state; for example, when the system acquires that the current operating signal frequency band of the multi-networking device is 914Mhz, and it is known that the signal should be between 894Mhz and 934Mhz when the multi-networking device operates online, that is, the current signal frequency band of the multi-networking device is within the preset detection frequency band, that is, the operating state of the multi-networking device is determined to be the online operating state.

In this embodiment, the method further includes:

a fourth obtaining module, configured to obtain a bridge node of the multi-group network device;

a fifth judging module, configured to judge whether the bridge node matches a current bridge diameter of the multiple sets of network devices;

and the fifth execution module is used for judging that the multi-networking equipment is currently in a state of waiting for voice control if the multi-networking equipment is not in the voice control state.

In this embodiment, the system determines whether the multi-group network device needs to perform voice control currently according to the bridge diameter of the multi-group network device in the running state by acquiring the bridge node of the multi-group network device; for example, the system acquires that all bridge nodes of the multi-networking device are connected to each device of the corresponding multi-networking device, and the bridge diameter preset by the multi-networking device is successfully applied by all bridge nodes, that is, the control state of the multi-networking device does not need to be controlled at this moment; for example, when it is known that bridge paths preset by the multi-networking device need to be successfully applied by all bridge nodes, it is determined that the multi-networking device needs to perform voice control at this time, and the current multi-networking device is already in a state of waiting for voice control because part of the bridge paths are not applied.

In this embodiment, the first execution module further includes:

a second obtaining unit, configured to obtain a state that the multi-networking device needs to enter currently;

the first input unit is used for inputting a preset instruction to the multiunit network according to the state;

the second judging unit is used for judging whether the preset instruction can be identified by the multi-networking equipment or not;

and the second execution unit is used for judging that the multi-networking equipment is in the single-networking operation state if the multi-networking equipment is not in the single-networking operation state.

In this embodiment, the system determines whether the multi-networking device can be identified by acquiring the current running state that the multi-networking device needs to enter, and inputting an instruction corresponding to the running state that the multi-networking device needs to enter into according to a preset instruction; for example, the system acquires that the current state required to enter by the multi-networking device is a full-speed operation state, that is, a corresponding instruction of 'full-speed operation' is input into the multi-networking device, and after the multi-networking device receives the instruction, the content corresponding to the instruction cannot be identified, that is, it can be determined that the multi-networking device is in a single-networking operation state and cannot execute an operation instruction in the multi-networking operation state; for example, the system acquires that the current state required to be entered by the multi-networking device is "power reduction" to the multi-networking device, and after receiving the instruction, the multi-networking device recognizes the content corresponding to the instruction, that is, it can be determined that the multi-networking device is in the multi-networking operating state, and can recognize the operating instruction and execute the content corresponding to the operating instruction.

In this embodiment, the second execution module further includes:

the third acquisition unit is used for acquiring a preset reset voice command;

a third judging unit, configured to judge whether the command conforms to a state that the current multi-networking device should execute;

and the third execution unit is used for resetting the multi-group network equipment by adopting the reset voice command if the command is positive.

In this embodiment, the system determines whether the corresponding command needs to be executed according to the current state that the multi-networking device should execute by acquiring the current voice command that needs to be reset for the multi-networking device and the voice command that is recorded in advance by the system and used for resetting the multi-networking device; for example, the system acquires that the current voice command required to reset the multi-networking device is 'reset multi-networking device', and the preset reset voice command of the multi-networking device is 'reset multi-networking device', that is, the multi-networking device recognizes the voice command at this moment, but if the multi-networking device runs normally at this moment, even if the voice command is recognized, the multi-networking device cannot be reset; for example, when the system acquires that the current voice instruction required to reset the multi-networking device is "reset multi-networking device", and when it is known that the preset reset voice command of the multi-networking device is "reset multi-networking device", that is, the multi-networking device recognizes the voice instruction, and the system determines that the multi-networking device really needs to be reset when the current operation state of the multi-networking device is abnormal, the system will reset the multi-networking device after confirming.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A control method for multi-networking offline voice control is characterized by comprising the following steps:

acquiring the coverage rate of a currently used signal of the multi-networking device;

judging whether the signal coverage rate is greater than a preset utilization rate or not;

if not, acquiring the operation mode of the multi-group networking equipment according to the bridging node of the multi-group networking equipment;

judging whether the running mode is matched with the current equipment consumed power;

if yes, a preset voice command is adopted to control and reset the multi-group network equipment.

2. The method for controlling multi-networking offline voice control according to claim 1, wherein before the step of resetting the multi-networking device using the preset voice command, the method comprises:

acquiring a voice instruction for controlling the multi-networking equipment;

judging whether the instruction is matched with a preset control key or not;

and if so, enabling the multi-networking equipment to execute corresponding content according to the instruction.

3. The method for controlling multi-networking offline voice control according to claim 1, wherein before the step of obtaining the current usage coverage of the multi-networking device, the method comprises:

acquiring a transmission line in the operation process of the multi-networking equipment;

judging whether the transmission line can be transmitted to a preset line path or not;

if not, judging that the multi-networking equipment needs to be controlled according to the voice instruction currently.

4. The method for controlling multi-networking offline voice control according to claim 1, wherein the step of obtaining the current usage coverage of the multi-networking device comprises:

acquiring signal frequency bands of the multi-group network equipment;

judging whether the signal frequency band is in a preset detection frequency band or not;

if not, the multi-networking equipment is judged to be in an offline operation state.

5. The method according to claim 1, wherein before the step of obtaining the operation mode of the multi-networking device according to the bridge node of the multi-networking device, the method comprises:

acquiring a bridging node of the multi-group network equipment;

judging whether the bridge node is matched with the current bridge path of the multi-group network equipment;

if not, judging that the multi-networking equipment is currently in a state of waiting for voice control.

6. The method according to claim 1, wherein the step of obtaining the operation mode of the multi-networking device according to the bridge node of the multi-networking device comprises:

acquiring the current state required to enter by the multi-group network equipment;

inputting a preset instruction to the multiunit network according to the state;

judging whether the preset instruction can be identified by the multi-networking equipment or not;

if not, the multi-networking equipment is judged to be in the single-networking running state.

7. The method for controlling the multi-networking offline voice control according to claim 1, wherein the step of controlling and resetting the multi-networking device using a preset voice command comprises:

acquiring a preset reset voice command;

judging whether the command conforms to the state of the current multi-group network equipment to be executed;

and if so, adopting the reset voice command to reset the multi-group network equipment.

8. A multi-networking offline voice-controlled control system, comprising:

the first acquisition module is used for acquiring the coverage rate of the currently used signal of the multi-networking equipment;

the first judgment module is used for judging whether the signal coverage rate is greater than a preset utilization rate or not;

the first execution module is used for acquiring the operation mode of the multi-group network equipment according to the bridging node of the multi-group network equipment if the operation mode is not the same as the operation mode of the multi-group network equipment;

the second judgment module is used for judging whether the running mode is matched with the current equipment consumption power;

and the second execution module is used for controlling and resetting the multi-group network equipment by adopting a preset voice command if the first execution module is yes.

9. The multi-networking offline voice-controlled control system according to claim 8, further comprising:

the second acquisition module is used for acquiring a voice instruction required to control the multi-group network equipment;

the third judgment module is used for judging whether the instruction is matched with a preset control key;

and if so, enabling the multi-networking equipment to execute corresponding content according to the instruction.

10. The multi-networking offline voice-controlled control system according to claim 8, further comprising:

the third acquisition module is used for acquiring a transmission line in the operation process of the multi-networking equipment;

the fourth judging module is used for judging whether the transmission line can be transmitted to a preset line path or not;

and the fourth execution module is used for judging that the multi-networking equipment needs to be controlled currently according to the voice instruction if the multi-networking equipment does not need to be controlled currently.

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