CN110266797B

CN110266797B - Remote sound control Internet of things system

Info

Publication number: CN110266797B
Application number: CN201910543527.1A
Authority: CN
Inventors: 陈致甫
Original assignee: Dongguan Educator Intelligent Technology Co ltd
Current assignee: Dongguan Educator Intelligent Technology Co ltd
Priority date: 2019-06-21
Filing date: 2019-06-21
Publication date: 2023-06-13
Anticipated expiration: 2039-06-21
Also published as: CN110266797A

Abstract

The invention relates to the technical field of headphones, in particular to a remote sound control Internet of things system. It comprises the following steps: at least one receiving device provided with a voice pickup unit for acquiring a sound signal; the network module is used for receiving the sound signal of the voice pickup unit and simultaneously sending the sound signal to the outside; the voice processing cloud server receives the voice signals sent by the network module and converts the voice signals into control signals; the control cloud server receives the control signal and sends the control signal to the Internet of things module; the forwarding equipment is provided with an Internet of things module; and establishing communication with the controlled equipment through the Internet of things module, and sending a control signal to the controlled equipment. According to the invention, the forwarding equipment is arranged, and the Internet of things module is arranged in the forwarding equipment, so that additional erection of a gateway is avoided, and the increase of router bandwidth pressure by using a WIFI protocol by all equipment is avoided, so that the router is convenient to use.

Description

Remote sound control Internet of things system

Technical Field

The invention relates to the technical field of headphones, in particular to a remote sound control Internet of things system.

Background

Along with the continuous development of technology, sound control technology is also developed, at present, many intelligent devices are provided with AI systems, such as tablet computers, smart phones and the like, and the intelligent devices recognize the key words and then perform corresponding operations; but the development of internet of things is also going on constantly, for better life experience, the acoustic control internet of things appears on the market at present, if the application number is: CN201710301392.9, the name of which is: a wiring-free voice control switch, a corresponding Internet of things system and a communication method thereof; the technical scheme introduces the Internet of things, wherein a control command sending part of the Internet of things comprises a voice acquisition unit, a voice command recognition unit, a voice command feature library, a control command retrieval generation unit, a pairing information and control command list, a pairing upgrading control unit and the like, and the voice command is converted into an electronic control command and then is transmitted to the Internet of things through a WIFI transmission unit to control equipment; in the control command issuing part, the current internet of things is generally connected with controlled equipment through a gateway or a router by signals, for example, the application number is as follows: 201820289918.8, namely a home security system of the Internet of things, and when a control command is issued, the control command is sent to controlled equipment through a gateway of the Internet of things; the application number is CN201611220136.9, the name is the connecting device of the Internet of things, and the control command issuing part of the connecting device is in signal connection with the controlled equipment through the network module. If a gateway is arranged, additional management cost and erection cost are increased; if a router is used, the pressure of the router bandwidth is increased, which brings inconvenience to use.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a remote sound control Internet of things system which can avoid the cost of extra erection and avoid all devices from using a WIFI protocol.

Remote acoustic control thing networking systems, it includes:

at least one receiving device provided with a voice pickup unit for acquiring a sound signal;

the network module is used for receiving the sound signal of the voice pickup unit and simultaneously sending the sound signal to the outside;

the voice processing cloud server receives the voice signals sent by the network module and converts the voice signals into control signals;

the control cloud server receives the control signal and sends the control signal to the Internet of things module;

the forwarding equipment is provided with an Internet of things module; and establishing communication with the controlled equipment through the Internet of things module, and sending a control signal to the controlled equipment.

Preferably, the network module is integrated with the receiving device.

In another form, the receiving device is preferably provided with a short-range wireless signal transmission module, and the network module is also provided with a short-range wireless signal transmission module, and the network module establishes communication with the receiving device and receives the sound signal through the short-range wireless signal transmission module.

Further, the voice processing cloud server comprises a phrase library unit and a semantic processing unit; the phrase library unit is used for storing sound signals and control signals matched with the sound signals; the semantic processing unit searches out a corresponding control signal in the phrase library unit after receiving the sound signal, and sends the control signal to the control cloud processor.

Further, the control cloud server comprises a cloud service processing unit, a database unit and a cloud connection server unit; the database unit is used for storing the controlled equipment information; the cloud service processing unit is used for receiving the control signal, analyzing the control signal, inquiring the information of the controlled equipment from the database, generating a new control signal matched with the controlled equipment, and finally sending the control signal to the cloud connection server unit.

Further, an intermediate network module is arranged between the forwarding device and the control cloud server, the intermediate network module is connected with the cloud connection server unit through the Internet, and the intermediate network module is in signal connection with the Internet of things module.

Further, a relay unit is arranged between the forwarding equipment and the controlled equipment, the relay unit is provided with a relay internet of things module and an equipment control module, the relay internet of things module establishes communication with the internet of things module, the internet of things module sends a control command to the relay internet of things module, and the internet of things module is provided with an encryption unit for encrypting the control command; the relay internet of things module is provided with a decryption unit for decrypting received signals; the decrypted control command is sent to the equipment control module, and the equipment control module controls the controlled equipment.

Further, the internet of things module comprises an internet of things control unit and a central control internet of things module, the central control internet of things module and the relay internet of things module are both provided with short-distance wireless communication modules, the central control internet of things module and the relay internet of things module establish communication through the short-distance wireless communication modules, the encryption unit is arranged on the internet of things control unit, and the central control internet of things module encrypts the control command when sending the control command to the internet of things control unit.

Further, the central control internet of things module is provided with a heartbeat software module, and sends a heartbeat message to the internet of things control unit through the heartbeat software module; and the Internet of things control unit sends the heartbeat message to the cloud connection server.

Further, the receiving device is also provided with a voice playing unit.

The invention has the beneficial effects that: according to the invention, the forwarding equipment is arranged, and the Internet of things module is arranged in the forwarding equipment, so that additional erection of a gateway is avoided, and the increase of router bandwidth pressure by using a WIFI protocol by all equipment is avoided, so that the router is convenient to use.

Drawings

Fig. 1 is a schematic structural diagram of the present embodiment.

Fig. 2 is a schematic diagram of a second structure of the present embodiment.

Fig. 3 is a schematic diagram of a third structure of the present embodiment.

Fig. 4 is a timing chart illustrating the operation of the present embodiment.

The reference numerals include:

1—a receiving device; 11—a voice pick-up unit; 12—a voice playing unit; 2-a network module; 3, a voice processing cloud server; 31—a phrase library unit; 32—a semantic processing unit; 4, controlling a cloud server; 41—cloud service processing unit; 42-database unit; 43—cloud connection server unit; 5-forwarding device; 51—an internet of things module; 511-an internet of things control unit; 5111-an encryption unit; 512—central control internet of things module; 5121—heartbeat software module; 6-controlled device; 7, an intelligent terminal; 8—a relay unit; 81—a relay internet of things module; 82—a device control module; 811-a decryption unit; 9—an intermediate network module.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings. As shown in fig. 1 to 4.

Examples: see fig. 1, 2, 3; remote acoustic control thing networking systems, it includes:

at least one receiving device 1 provided with a voice pick-up unit 11 for acquiring sound signals;

the network module 2 receives the sound signal of the voice pickup unit 11 and simultaneously transmits the sound signal to the outside;

the voice processing cloud server 3 receives the voice signal sent by the network module 2 and converts the voice signal into a control signal;

the control cloud server 4 receives the control signal and sends the control signal to the internet of things module 51;

the forwarding device 5 is provided with an internet of things module 51; communication is established with the controlled device 6 through the internet of things module 51, and a control signal is sent to the controlled device 6.

Compared with the current internet of things system, the gateway is integrated to the internet of things module 51 and is arranged in the forwarding equipment 5, so that the gateway is prevented from being independently erected or the controlled equipment 6 is prevented from adopting the WIFI protocol of the router, and the bandwidth pressure of the router is increased. In a specific operation, the receiving device 1 may be an intelligent device with a microphone, such as a sound box, an earphone, a camera, etc.; the voice pick-up unit 11 of the receiving device converts the voice into a voice signal in a current form after acquiring the voice, the receiving device 1 transmits the voice signal to the network module 2 and sends the voice signal to the outside through the network module 2, and the network module 2 is not limited to a router, a 4G circuit, a network card and the like; transmitting the sound signal to a cloud server of the Internet; the cloud server of the technical scheme comprises a voice processing cloud server 3 and a control cloud server 4, wherein the voice processing cloud server 3 recognizes a sound signal, generates a corresponding control signal and sends the control signal to the control cloud server 4; the control cloud server 4 sends the control signal to the internet of things module 51 of the forwarding device 5 through the network, the internet of things module 51 establishes communication with the controlled device 6, and the internet of things module 51 can establish communication with the control cloud server 4 through wires and wireless, and can also establish communication with the controlled device 6 through wires and wireless. The internet of things module 51 may at this time be equivalent to a gateway; according to the technical scheme, the voice processing cloud server 3 and the control cloud server 4 are arranged, the problem that the receiving equipment 1 can be expanded in the use process is solved, namely, the Internet of things system is not limited, only signal transmission with the network module 2 is needed, and the like such as APP is not needed to be installed, any electronic equipment with the voice pickup unit 11 and the communication module can be added into the Internet of things system, no special equipment is needed, and the use is convenient. Secondly, the voice processing cloud server 3 and the control cloud server 4 are separately arranged, so that the problem of directly sending control signals to the control cloud server 4 through a specific remote control device, namely, a specific remote controller or an intelligent terminal 7 with a specific APP, is directly connected with the control cloud server 4 through a network, and then, the control signals are directly sent to the control cloud server 4; therefore, the problem that when the sound control fails, the control cannot be performed is solved; the control signal can be directly sent to the control cloud through the network module 2 through a specific wireless remote controller or a smart terminal 7 (such as a smart phone or a tablet computer) with a specific APP. The forwarding device 5 and the receiving device 1 may be integrated or assembled into the same device, or may be different devices, and the receiving device 1 and the forwarding device 5 may be: sound box, smart phone, tablet computer, smart camera, etc. The number of the controlled devices 6 can be 1 or 2 or more, and the working flow of the technical scheme can refer to fig. 4.

Referring to fig. 1, the network module 2 is preferably integrated or assembled to the receiving device 1.

The network module 2 is integrated in the receiving device 1, so that the number of devices can be reduced, and the external interference in the signal transmission process can be reduced, and in specific application, such as a smart phone, voice is received through the MIC, then the voice signal is sent out through a 2G, 3G, 4G or 5G network, and certainly, the voice signal can also be sent out through a mobile phone card; this mode can be used as one of the direct signal transmission modes.

See fig. 2; as another form, the receiving device 1 is preferably provided with a short-range wireless signal transmission module, and the network module 2 is also provided with a short-range wireless signal transmission module, through which the network module 2 establishes communication with the receiving device 1 and receives sound signals.

When the receiving equipment 1 cannot be directly connected with the network, the network can be connected with the network module 2, and when the signal transmission is established with the network module 2, the communication can be established with the network module 2 through a short-distance wireless signal transmission module, and the short-distance wireless signal transmission module can be a Bluetooth device, an infrared device, a WiFi device and the like; when using WiFi devices, the network module 2 may employ a router. As a third way, the receiving device 1 may establish communication with the network module 2 directly through a network cable.

See fig. 3; further, the voice processing cloud server 3 includes a phrase library unit 31 and a semantic processing unit 32; the phrase library unit 31 is used for storing sound signals and control signals matched with the sound signals; the semantic processing unit 32 searches the phrase library unit 31 for a corresponding control signal after receiving the sound signal, and sends the control signal to the control cloud processor.

In the technical scheme, a phrase library unit 31 and a semantic processing unit 32 are arranged in a voice processing cloud service, the phrase library unit 31 is used for storing matched sound signals and control signals, and the phrase library can be upgraded in the use process, 1, high-efficiency and accurate recognition of sound signals is realized through continuous self-learning; or 2, communication with the outside can be established, the phrase library is continuously expanded, and the control signal is increased.

Further, the control cloud server 4 includes a cloud service processing unit 41, a database unit 42, and a cloud connection server unit 43; wherein the database unit 42 is configured to store the controlled device 6 information; the cloud service processing unit 41 is configured to receive the control signal, parse the control signal, query the database for information of the controlled device 6, generate a new control signal matched with the controlled device 6, and send the control signal to the cloud connection server unit 43.

In the implementation, the control cloud server 4 does not simply transmit the control signal to the forwarding device 5, and the control signal generated by the semantic processing unit 32 is more general, such as the increase of the light emitting brightness of the lamp; when the controlled device 6 specifically falls to the controlled device 6, the address, ID or operation code of the lamp needs to be found, because the controlled device 6 may be more than one or one electric appliance when the controlled device 6 is controlled by the internet of things, the controlled device 6 may be a plurality of electric appliances, and thus the address, the operation code and the like of the controlled device 6 need to be found accurately; secondly, after the database unit 42 is set, the existing internet of things system can be expanded, for example, the controlled device 6 is expanded, and the information corresponding to the expanded controlled device 6 is added and stored in the database. So that the internet of things system is not limited. A plurality of long connection mode structures may be disposed in the cloud connection server unit 43, and the forwarding device 5 may be configured to establish communication with the transport connection server unit through various long connection modes, where the long connection modes include, but are not limited to: 4G network connections, wireless broadcast connections, internet connections, etc.

Further, an intermediate network module 9 is arranged between the forwarding device 5 and the control cloud server 4. The intermediate network module 9 may be connected to the cloud connection server unit 43 through the internet, and the intermediate network module 9 is signal-connected to the internet of things module 51.

After the intermediate network module 9 is set, the intermediate network module 9 is connected with the cloud connection server unit 43 through the internet, and receives a control command sent by the cloud connection server; the intermediate network module 9 may be a router, which may access the internet through a WAN port. The setting of the intermediate network module 9 is more in line with real life use; currently, most households access the internet through routers. Of course, the intermediate network module 9 may be other, such as a 4G circuit.

Further, a relay unit 8 is arranged between the forwarding device 5 and the controlled device 6, the relay unit 8 is provided with a relay internet of things module 81 and a device control module 82, the relay internet of things module 81 and the internet of things module 51 establish communication, the internet of things module 51 sends a control command to the relay internet of things module 81, and the internet of things module 51 is provided with an encryption unit 5111 for encrypting the control command; the relay internet of things module 81 is provided with a decryption unit 811 for decrypting the received signal; the decrypted control command is sent to the device control module 82, and the device control module 82 controls the controlled device 6.

After the relay unit 8 is arranged, the control part of the equipment, namely the equipment control module 82, is separated and integrated in the relay unit 8, and meanwhile, the relay internet of things module 81 and the internet of things module 51 of the relay unit 8 are respectively provided with a decryption and encryption unit 5111, so that the external interference and signal confidentiality are reduced in the transmission process of the control command. The device control module 82 may be specifically provided with a control circuit of the controlled device 6, to implement specific control of the controlled device 6, such as switching of a device, adjustment of a device gear, switching of an operation mode, and the like.

Further, the internet of things module 51 includes an internet of things control unit 511 and a central control internet of things module 512, both the central control internet of things module 512 and the relay internet of things module 81 are provided with short-distance wireless communication modules, the central control internet of things module 512 and the relay internet of things module 81 establish communication through the short-distance wireless communication modules, the encryption unit 5111 is arranged in the internet of things control unit 511, and the central control internet of things module 512 encrypts the control command when sending the control command to the internet of things control unit 511.

The short-distance communication module comprises a WIFI module, a Bluetooth module and the like; the most common wireless radio frequency transmission of the 2.4G frequency band at present; the hollow internet of things module establishes communication with the relay internet of things module 81 through the short-range communication module, transmits a control command, or feeds back the state of the controlled device 6.

In practical use, the internet of things control unit 511 controls the serial port, communicates with the central control internet of things module 512 via the serial port, and communicates with the cloud connection server unit 43 via WIFI. Receiving data pushed by the cloud connection server unit 43 and sending the data to the central control internet of things module 512; meanwhile, the data reported by the central control internet of things module 512 is also received and reported to the cloud connection server unit 43. The cloud connection server unit 43 establishes a long connection with the cloud connection server unit 43 through the TCP protocol.

Custom application protocols (including heartbeat and traffic protocols) are used to maintain the stability of long connections. The internet of things control unit 511 periodically transmits a heartbeat message packet to the cloud connection server unit 43 and receives a response. The system has the functions of reconnection, upgrading, log recording and the like of disconnected network.

Further, the central control internet of things module 512 is provided with a heartbeat software module 5121, and sends a heartbeat message to the internet of things control unit 511 through the heartbeat software module 5121; the thing-linked control unit 511 transmits the heartbeat message to the cloud connection server.

Custom application protocols (including heartbeat or traffic protocols) are used to maintain the stability of long connections. The internet of things control unit 511 periodically transmits a heartbeat message packet to the cloud connection server unit 43 and receives a response. The system has the functions of reconnection, upgrading, log recording and the like of disconnected network.

Further, the receiving device 1 is also provided with a voice playing unit 12.

When the voice processing cloud server 3 cannot convert the sound signal into the control signal, the voice processing cloud server 3 will send a processing failure signal to the receiving apparatus 1 through the network module, and the receiving apparatus 1 plays the failure signal, such as an | "invalidation instruction", etc., through the voice playing unit 12. The method comprises the following steps: the phrase library unit 31 does not store the control signal matched with the current voice signal, the semantic processing unit 32 will send out a processing failure signal to the receiving device 1 through the network module, and the voice playing unit 12 plays the voice of the 'invalidation instruction'. Of course, the validity of the instruction may also be fed back in other forms. If the receiving apparatus 1 is provided with an indicator lamp, when the received voice is valid, the semantic processing unit 32 feeds back a valid signal, and the indicator lamp is turned on green; when the received voice is invalid, the semantic processing unit 32 feeds back an invalidation signal, and the indicator light is lighted red. It is possible to feed back whether the network is normal or not, and it is also possible to feed back whether the voice is valid or not. The technical features in the embodiments can be arbitrarily combined to form a new specific embodiment to meet the requirements in real life.

The foregoing is merely exemplary of the present invention, and those skilled in the art should not be considered as limiting the invention, since modifications may be made in the specific embodiments and application scope of the invention in light of the teachings of the present invention.

Claims

1. Remote acoustic control internet of things system, its characterized in that: it comprises the following steps:

the voice processing cloud server receives the voice signals sent by the network module and converts the voice signals into control signals; the voice processing cloud server comprises a phrase library unit and a semantic processing unit; the phrase library unit is used for storing sound signals and control signals matched with the sound signals; the semantic processing unit searches a corresponding control signal in the phrase library unit after receiving the sound signal, and sends the control signal to the control cloud processor;

the forwarding equipment is provided with an Internet of things module; establishing communication with the controlled equipment through the Internet of things module, and sending a control signal to the controlled equipment;

the cloud control server comprises a cloud service processing unit, a database unit and a cloud connection server unit; the database unit is used for storing the controlled equipment information; the cloud service processing unit is used for receiving the control signal, analyzing the control signal, inquiring the information of the controlled equipment from the database, generating a new control signal matched with the controlled equipment, and finally transmitting the control signal to the cloud connection server unit;

a plurality of long connection mode structures are arranged in the cloud connection server unit, and the forwarding equipment and the cloud connection server unit are communicated through the long connection modes;

a relay unit is arranged between the forwarding equipment and the controlled equipment, the relay unit is provided with a relay Internet of things module and an equipment control module, the relay Internet of things module establishes communication with the Internet of things module, the Internet of things module sends a control command to the relay Internet of things module, and the Internet of things module is provided with an encryption unit for encrypting the control command; the relay internet of things module is provided with a decryption unit for decrypting received signals; the decrypted control command is sent to an equipment control module, and the equipment control module is specifically provided with a control circuit of the controlled equipment to control the controlled equipment; an intermediate network module is arranged between the forwarding equipment and the control cloud server; the intermediate network module is connected with the cloud connection server unit through the Internet and is in signal connection with the Internet of things module;

the Internet of things module comprises an Internet of things control unit and a central control Internet of things module, wherein the central control Internet of things module and the relay Internet of things module are both provided with a short-distance wireless communication module, the central control Internet of things module and the relay Internet of things module establish communication through the short-distance wireless communication module, the encryption unit is arranged in the Internet of things control unit, and the central control Internet of things module encrypts a control command when sending the control command to the Internet of things control unit;

the central control Internet of things module is provided with a heartbeat software module and sends a heartbeat message to the Internet of things control unit through the heartbeat software module; the Internet of things control unit sends the heartbeat message to the cloud connection server;

the cloud connection server unit establishes long connection with the cloud connection server unit through a TCP protocol; maintaining the stability of long connection by using a self-defined application protocol, including a heartbeat protocol and a service protocol, and periodically sending a heartbeat message packet to a cloud connection server unit and receiving a response by an Internet of things control unit;

the voice processing cloud server and the control cloud server are arranged separately; the intelligent terminal establishes connection with the control cloud server through a network and sends a control signal to the control cloud server.

2. The remote voice-controlled internet of things system of claim 1, wherein: the network module is integrated or assembled with the receiving device.

3. The remote voice-controlled internet of things system of claim 1, wherein: the receiving equipment is provided with a short-distance wireless signal transmission module, the network module is also provided with a short-distance wireless signal transmission module, and the network module establishes communication with the receiving equipment through the short-distance wireless signal transmission module and receives sound signals.

4. The remote voice-controlled internet of things system of claim 1, wherein: the receiving device is also provided with a voice playing unit.