WO2019084798A1 - 无线信号增强设备、方法、系统和存储介质 - Google Patents
无线信号增强设备、方法、系统和存储介质 Download PDFInfo
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- WO2019084798A1 WO2019084798A1 PCT/CN2017/108673 CN2017108673W WO2019084798A1 WO 2019084798 A1 WO2019084798 A1 WO 2019084798A1 CN 2017108673 W CN2017108673 W CN 2017108673W WO 2019084798 A1 WO2019084798 A1 WO 2019084798A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/14—Relay systems
- H04B7/15—Active relay systems
- H04B7/155—Ground-based stations
- H04B7/15528—Control of operation parameters of a relay station to exploit the physical medium
- H04B7/15535—Control of relay amplifier gain
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B17/00—Monitoring; Testing
- H04B17/10—Monitoring; Testing of transmitters
- H04B17/11—Monitoring; Testing of transmitters for calibration
- H04B17/12—Monitoring; Testing of transmitters for calibration of transmit antennas, e.g. of the amplitude or phase
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B17/00—Monitoring; Testing
- H04B17/30—Monitoring; Testing of propagation channels
- H04B17/309—Measuring or estimating channel quality parameters
- H04B17/318—Received signal strength
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B17/00—Monitoring; Testing
- H04B17/30—Monitoring; Testing of propagation channels
- H04B17/382—Monitoring; Testing of propagation channels for resource allocation, admission control or handover
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B17/00—Monitoring; Testing
- H04B17/40—Monitoring; Testing of relay systems
- H04B17/401—Monitoring; Testing of relay systems with selective localization
- H04B17/402—Monitoring; Testing of relay systems with selective localization using different frequencies
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/66—Arrangements for connecting between networks having differing types of switching systems, e.g. gateways
Definitions
- the present application relates to the field of communications technologies, and in particular, to a wireless signal enhancement apparatus, method, system, and storage medium.
- wireless technologies used in wireless communication in smart homes commonly include WIFI (WIreless Fidelity) technology, 433/868/915MHz wireless communication technology, and Z-WAVE technology (a radio frequency-based, low-cost, Low-power, high-reliability, short-range wireless communication technology suitable for networks, etc.
- WIFI WIreless Fidelity
- Z-WAVE technology a radio frequency-based, low-cost, Low-power, high-reliability, short-range wireless communication technology suitable for networks, etc.
- the signal when the node data transmission distance is long, the signal may be weakened or even signalless. 433/868/915MHz wireless communication also has certain defects. When multiple wireless devices transmit data at the same time, the receiving end may leak and receive data packets.
- a wireless signal enhancement apparatus In accordance with various embodiments of the present application, a wireless signal enhancement apparatus, method, system, and storage medium are provided.
- a wireless signal enhancement device comprising:
- At least two different types of wireless communication modules for receiving corresponding wireless signals, and transmitting the wireless signals to the first processor
- a first processor connected to the wireless communication module, configured to receive the wireless communication module for transmission The wireless signal and parsing the wireless signal to obtain an analysis result;
- the wireless communication module that receives the wireless signal is further configured to perform enhancement processing on the wireless signal.
- a wireless signal enhancement method includes:
- the wireless signal is subjected to enhancement processing by the wireless communication module.
- a wireless signal augmentation system comprising:
- At least two different types of wireless communication modules for receiving corresponding wireless signals, and transmitting the wireless signals to the first processor
- the first processor is connected to the wireless communication module, and configured to receive the wireless signal transmitted by the wireless communication module and parse the wireless signal to obtain an analysis result;
- a wireless communication module that receives the wireless signal, and is further configured to perform enhancement processing on the wireless signal
- a mobile device configured to receive an analysis result obtained by the first processor parsing a wireless signal, where the mobile device is connected to the first processor.
- One or more non-transitory computer readable storage mediums storing computer readable instructions, when executed by one or more processors, cause the one or more processors to perform the following steps :
- the wireless signal is subjected to enhancement processing by the wireless communication module.
- FIG. 1 is a schematic structural diagram of a wireless signal enhancement device in an embodiment
- FIG. 2 is a schematic structural diagram of a wireless signal enhancement device in another embodiment
- FIG. 3 is an application structural diagram of a wireless signal enhancement device in an embodiment
- FIG. 4 is an application scenario diagram of a wireless signal enhancement device in an embodiment
- FIG. 5 is a schematic flow chart of a wireless signal enhancement method in an embodiment
- FIG. 6 is a schematic structural diagram of a wireless signal augmentation system in an embodiment
- wireless signal enhancement device 100 includes a first processor 102, at least two different types of wireless communication modules 104, and a wireless communication module 106.
- the wireless communication module 104 and the wireless communication module 106 are configured to receive a corresponding wireless signal and transmit the wireless signal to the first processor 102.
- the first processor 102 is connected to the wireless communication module 104 and the wireless communication module 106, respectively, for receiving the wireless signal transmitted by the wireless communication module 104 or the wireless communication module 106.
- the wireless communication module 104 or the wireless communication module 106 is also used to perform enhancement processing on the wireless signal.
- the wireless communication module 104 can directly perform enhancement processing on the received wireless signals.
- the wireless communication module 104 receives the wireless signal transmitted by using the same frequency band and the same protocol by means of modulation and demodulation, transmits the wireless signal to the first processor 102, and the wireless signal received by the first processor 102 and parses the wireless signal.
- the processing result is obtained, and the analysis result may be an identifier of the sending device, an identifier of the target device, specific content, and the like.
- Wireless communication module 104 The received wireless signal will be directly processed by modulation and demodulation.
- the wireless communication module 106 performs enhancement processing on the wireless signal, and the wireless signal must be enhanced according to the analysis result obtained by the first processor 102 analyzing the wireless signal.
- the wireless communication module 106 receives the wireless signals transmitted using the same frequency band and the same protocol by means of modulation and demodulation, and transmits the wireless signals to the first processor 102.
- the process 102 receives the wireless signal and analyzes the wireless signal, obtains the analysis result, and transmits the analysis result to the wireless communication module 106.
- the wireless communication module 106 performs enhancement processing on the wireless signal according to the analysis result.
- the plurality of wireless communication modules parse the wireless signal in the first processor by receiving different wireless signals, and then perform enhancement processing on the received wireless signal in the corresponding wireless module to enable reception.
- Wireless signal devices are more likely to receive wireless signals, enabling enhancement of multiple wireless signals.
- the wireless signal enhancement device 200 includes a first processor 202, a WIFI module 204, a Z-WAVE module 206, and a 433/868/915 MHz transceiver module 208.
- the WIFI module 204 is connected to the first processor 202.
- the WIFI module is configured to be in a wireless relay mode, and is configured to relay and amplify the received WIFI signal and then send the signal through the modulation and demodulation mode.
- the WIFI module 204 is connected to the first processor 202 through a communication interface, and the communication interface may be a USB (Universal Serial Bus) interface or a SDIO (Secure Digital Input and Output Card). One of an interface and an Inter-Integrated Circuit (IIC) interface.
- the WIFI module 204 is set to the wireless relay mode, and the wireless relay mode utilizes the wireless relay function of the AP (Wireless Access Point) to transmit the wireless signal from a relay point relay to the next relay point, and forms The new wireless coverage area constitutes a plurality of wireless relay coverage point relay modes, and finally achieves the purpose of extending the coverage of the wireless network.
- the WIFI module 204 is equivalent to a relay point, and relays and amplifies the received WIFI signal, and then transmits the received wireless signal through a modulation and demodulation method to form a wireless signal coverage.
- the Z-WAVE module 206 is connected to the first processor 202, and the Z-WAVE module 206 is configured as a control device, configured to receive a node identifier of the target Z-WAVE device obtained by the first processor 202 to parse the wireless signal, according to The node identifier sends the received wireless signal to the radio frequency modulation mode to Target Z-WAVE device.
- the Z-WAVE module 206 is connected to the first processor 202 through a communication interface, and the communication interface may be one of a USB interface, an SDIO interface, and an IIC interface, and the Z-WAVE module may pass FSK (Frequency-shift keying, ie, Frequency shift keying)
- the modulation and demodulation method receives and transmits the wireless signal of the Z-WAVE protocol.
- the Z-WAVE module 206 is configured as a control device. Specifically, there are two basic types of devices in the Z-WAVE protocol, namely a control type device (Controller) and a controlled device (Slave).
- the control type device can send control commands to other nodes, and the controlled device can respond to the corresponding control commands.
- the Z-WAVE module 206 receives the node identifier of the target Z-WAVE device that the first processor 202 parses the wireless signal, and sends the received Z-WAVE wireless signal to the target Z through the FSK modulation and demodulation method according to the node identifier. -WAVE device.
- the target Z-WAVE device is not within the transmission range of the Z-WAVE module, and the Z-WAVE module searches for routing information to the target device in its own routing table. According to the routing information, the Z-WAVE module The wireless signal is sent to the Z-WAVE device in the routing information adjacent to the target Z-WAVE device, and the adjacent Z-WAVE device receives the wireless signal, and the target Z-WAVE device node identifier is parsed, and the adjacent Z-WAVE device will wirelessly The signal is sent to the target Z-WAVE device according to the target Z-WAVE device node identifier, which realizes communication of two Z-WAVE devices that are not within the wireless communication distance, and expands the wireless communication distance of the Z-WAVE device.
- the 433/868/915MHz transceiver module 208 is connected to the first processor 202, and the 433/868/915MHz transceiver module is set to receive mode for monitoring wireless signals in the 433/868/915 MHz band and receiving wireless signals.
- the wireless signal is transmitted to the first processor 202, and the number of times of forwarding the wireless signal is determined according to the sending device identifier and the information content obtained by the first processor 202 using the customized communication protocol to analyze the wireless signal, and the wireless device is forwarded according to the number of times of forwarding. signal.
- the 433/868/915MHz transceiver module 208 is connected to the first processor 202 through a communication interface, and the communication interface may be one of a USB interface, an SDIO interface, and an IIC interface, and the 433/868/915MHz transceiver module 208 is configured.
- the resident 433/868/915MHz band monitors the wireless signal in the 433/868/915MHz band.
- the listening frequency band of the 433/868/915 MHz transceiver module 208 is the same as the receiving frequency band of the 433/868/915 MHz communication device that needs to be forwarded.
- the 433/868/915MHz transceiver module 208 and 433/868/915MHz communication device requiring signal forwarding Communication is carried out using the same communication protocol, ie a customized communication protocol.
- the 433/868/915MHz transceiver module 208 receives the wireless signal, and transmits the wireless signal to the first processor 202.
- the first processor 202 parses the wireless signal according to the customized protocol, and obtains the sending device identifier and the information content to determine the wireless The number of times the signal is forwarded, the wireless signal is forwarded according to the number of times of forwarding, and different devices and different information contents are processed differently.
- the content of the information is only some data content reported by the sending end, data such as temperature and humidity need to be forwarded only once, and alarm information such as smoke and flammable gas sensor is used. Need to be forwarded multiple times, usually three to five times, to ensure that the data content is not lost.
- the WIFI module in the device enhances the WIFI signal
- the Z-WAVE module enhances the corresponding wireless signal
- the 433/868/915 MHz transceiver module enhances the corresponding wireless signal, each independently, respectively different
- the wireless signal is enhanced to make it easier for a device that is to receive a wireless signal to receive a wireless signal, thereby enhancing the enhancement of multiple wireless signals.
- the wireless communication module is further configured to detect a signal strength of the received wireless signal, determine a wireless signal strength level of the current wireless signal region according to a signal strength of the wireless signal, and set a wireless signal strength level of the wireless signal region. Transfer to the first processor.
- the WIFI module, the Z-WAVE module, and the 433/868/915MHz transceiver integrated module each have a signal strength function for detecting the received wireless signal, and determining a wireless signal strength level of the current wireless signal region according to the signal strength of the wireless signal.
- the wireless signal strength level of the wireless signal area is transmitted to the first processor.
- an application structure diagram of a wireless signal enhancement device includes a wireless signal enhancement device 300, a communication interface 302, and a mobile device 304.
- the mobile device may be a mobile robot, a drone, or the like that can carry a wireless signal enhancement device and is movable.
- the mobile device 304 is equipped with a wireless signal enhancement device 300 via a communication interface 302.
- the communication interface 302 is connected to the first processor in the wireless signal enhancement device 300.
- the communication interface 302 can also be connected to the mobile device for using the first processor.
- the data is transmitted to the mobile device 304 to cause the mobile device 304 to interact with the first processor via the communication interface.
- the communication interface 302 can be one of a USB interface, an SDIO interface, and an IIC interface.
- the first processor parses the received wireless signal to obtain a parsed result.
- the first processor transmits the parsed result to the mobile device 304 through the communication interface, and the mobile device 304 moves according to the parsed result, and performs different movement according to different analysis results. If the alarm information is parsed, the information is sent to the receiver in time. And the mobile device can be moved to the device that sends the alarm information, and if there is a camera loaded on the mobile device, the information at the alarm device can be recorded.
- the first processor may further receive data of a wireless signal strength level, transmit data of the wireless signal strength level to the mobile device 304 through the communication interface, and the mobile device 304 receives the wireless signal strength level. Data, moving according to the strength of the wireless signal.
- the communication interface is also coupled to a power source on the mobile device 304 for powering the wireless signal enhancement device 300.
- the wireless signal enhancement device is mounted on the mobile device through the communication interface, and the mobile device is controlled to move according to the result of the first processor analysis by the data interaction of the first processor in the wireless signal enhancement device. It is also possible to control the movement of the mobile device to enhance the wireless signals of different regions, and solve the problem that the wireless signal strength level of the receiving device is interrupted when the wireless signal strength level is different in one region.
- an application scenario diagram of a wireless signal enhancement device includes a wireless router 402, a mobile robot 400 equipped with a wireless signal enhancement device, a user 404, and a mobile phone. 406.
- the mobile robot 400 is equipped with a wireless signal enhancement device.
- the wireless signal enhancement device receives the wireless signal transmitted by the router 402, and relays and amplifies the wireless signal in the wireless relay mode, and the wireless signal is modulated and demodulated. Send it out.
- the mobile robot can implement the enhancement of the wireless signal around the user 404 by following the user 404 through the wireless signal enhancement device, so that the user 404 can use the mobile phone 406 regardless of the place at home.
- the wireless signal is received, there is no problem that the wireless signal is weak or the wireless signal is interrupted, so that the user 404 can use the mobile phone 406 more conveniently.
- the Z-WAVE module in the wireless signal enhancement device carried by the mobile robot 400 can also receive the alarm information of the door magnet, send it to the receiving device, and transmit it to the first processor.
- the first processor receives the alarm information, parses the alarm information to obtain a position where the door magnet is triggered, and transmits the position where the transmission door magnet is triggered to the mobile device through the communication interface, and the mobile device can move to the door magnet The location that was triggered to view the situation. If the mobile device is loaded with a camera, the camera can record the position where the door magnet is triggered. When you are no one at home, knowing what is happening at home can ensure safety at home.
- the wireless signal augmentation device can also be mounted on a drone that enables a wider range of signal retrieval and enhancement.
- some people use the 915MHz emergency help device for help.
- the 433/868/915MHz transceiver module in the wireless signal enhancement device of the unmanned aircraft receives the 915MHz emergency help signal and analyzes the wireless signal.
- the identifier of the sending device is forwarded to the searcher three to five times, and the searcher can locate the area where the rescuer is located according to the received unintentional signal. Thereby improving the efficiency of search and rescue.
- the wireless signal enhancement device is combined with the mobile device to implement different functions in different scenarios, and solves the problem that the conventional wireless signal enhancement device can only enhance a single wireless signal in a fixed area at a fixed position.
- the problem is to make wireless signal enhancement device applications more extensive and flexible.
- a wireless signal enhancement method including:
- Step S502 receiving a corresponding wireless signal by using at least two different types of wireless communication modules.
- the corresponding wireless communication module is used for receiving, and at least two wireless communication modules can receive two different wireless signals, and the wireless signal and the wireless communication module have the same frequency band and use the same communication. protocol.
- the received wireless signal is transmitted to the first processor through the communication interface.
- Step S504 parsing the wireless signal received by the wireless communication module to obtain an analysis result.
- the first processor receives the wireless signal sent by the wireless communication module, and according to different wireless communication modules, the received wireless signal is different, the first processor analyzes the wireless signals, and different wireless signals are parsed. Different analysis results will be obtained.
- the analysis result may be the identifier of the sending device, the identifier of the target device, and the specific content.
- the first processor transmits the parsing result to the wireless communication module.
- Step S506 performing enhancement processing on the wireless signal by using the wireless communication module.
- the wireless communication module directly enhances the WIFI wireless signal according to the type of the wireless signal, such as the WIFI module.
- the wireless communication module receives the analysis result sent by the first processor according to the type of the wireless signal, such as the Z-WAVE module, and the 433/868/915 MHz transceiver module, and the wireless signal according to different analysis results. Enhance in different ways.
- the wireless communication module that receives the wireless signal is a WIFI module
- the received wireless signal is directly relayed and amplified by the WIFI module, and then the wireless signal is transmitted through the modulation and demodulation method.
- the node identifier of the target Z-WAVE device obtained by the first processor received by the Z-WAVE module to parse the wireless signal is determined according to the node.
- the identifier transmits the received wireless signal to the target Z-WAVE device through modulation and demodulation.
- the wireless communication module that receives the wireless signal is a 433/868/915MHz transceiver module
- the 433/868/915MHz transceiver module monitors the wireless signal in the 433/868/915 MHz band and receives the wireless signal, and the wireless The signal is transmitted to the first processor, and the number of times of forwarding the wireless signal is determined according to the sending device identifier and the information content obtained by the first processor using the customized communication protocol to analyze the wireless signal, and the wireless signal is forwarded according to the number of times of forwarding.
- the wireless communication module after performing enhancement processing on the wireless signal by the wireless communication module, including: detecting a signal strength of the received wireless signal, determining a wireless signal strength level of the current wireless signal region according to a signal strength of the wireless signal, The wireless signal strength level of the wireless signal area is transmitted to the first processor.
- the method includes: when the first processor is connected to the mobile device through the communication interface, transmitting the analysis result and the wireless signal strength level through the communication interface.
- the mobile device is moved so that the mobile device moves according to the analysis result and the wireless signal strength level. It can be flexibly implemented to enhance the relatively weaker wireless signals in an area, so that the user can use the wireless device better and more conveniently regardless of the place in the area.
- different wireless communication modules such as a WIFI module, a Z-WAVE module, and a 433/868/915 MHz transceiver module, receive corresponding wireless signals, and transmit wireless signals to the server through the communication interface.
- the server parses and transmits the wireless signal to the corresponding wireless communication module, and the wireless communication module sends the wireless signal according to the analysis result, thereby realizing various
- the enhancement of the wireless signal makes it easier for the device to be received to receive the wireless device transmitted by the transmitting device.
- a wireless signal enhancement system includes:
- At least two different types of wireless communication modules for receiving corresponding wireless signals, and transmitting the wireless signals to the first processor
- the first processor is connected to the wireless communication module, and configured to receive the wireless signal transmitted by the wireless communication module and parse the wireless signal to obtain an analysis result;
- a wireless communication module that receives the wireless signal, and is further configured to perform enhancement processing on the wireless signal
- the mobile device is configured to receive an analysis result obtained by the first processor to parse the wireless signal and a wireless signal strength level, and move according to the analysis result and the wireless signal strength level, and the mobile device is connected to the first processor.
- the wireless communication module includes:
- the WIFI module is connected to the first processor, and the WIFI module is set to a wireless relay mode, and is configured to directly relay and amplify the received wireless signal, and then send the wireless signal by using a modulation and demodulation method.
- the wireless communication module includes:
- the Z-WAVE module is connected to the first processor, and the Z-WAVE module is configured as a control device, configured to receive a node identifier of the target Z-WAVE device obtained by parsing the wireless signal by the first processor, and receiving the node identifier according to the node identifier
- the wireless signal is sent to the target Z-WAVE device through modulation and demodulation.
- the wireless communication module includes:
- the 433/868/915MHz transceiver module is connected to the first processor, and the 433/868/915MHz transceiver module is set to receive mode for monitoring wireless signals in the 433/868/915MHz band and receiving wireless signals to transmit wireless signals. Go to the first processor, determine the number of times of forwarding the wireless signal according to the sending device identifier and the information content obtained by parsing the wireless signal by using the customized communication protocol by the first processor, and forwarding the wireless signal according to the number of times of forwarding.
- the wireless communication module is further configured to detect a signal strength of the received wireless signal, determine a wireless signal strength level of the current wireless signal region according to a signal strength of the wireless signal, and set a wireless signal strength level of the wireless signal region. Transfer to the first processor.
- the wireless signal enhancement system further includes:
- the communication interface is also connectable to the mobile device for transmitting data of the first processor to the mobile device, so that the mobile device performs data interaction with the first processor through the communication interface.
- the mobile device comprises:
- the second processor is connected to the communication interface, and configured to receive the analysis result transmitted by the first processor and the strength level of the wireless signal, and send a movement instruction to the control component according to the analysis result and the wireless signal strength level;
- control component configured to receive the movement instruction, and control the movement of the mobile device according to the received movement instruction
- a power module for powering the wireless signal augmentation system
- the second processor is also connected to the control component and the power module, respectively.
- a wireless signal enhancement system 500 including: a first processor 502, a WIFI module 504, a Z-WAVE module 506, and a 433/868/915 MHz transceiver.
- Module 508 communication interface 510, and mobile device 512.
- the mobile device 512 includes a second processor 5122, a control component 5124, and a power module 5126.
- the WIFI module 504 is connected to the first processor 502 through a communication interface, and the communication interface may be one of a USB interface, an SDIO interface, and an IIC interface.
- the WIFI module 504 is set to the wireless relay mode, and the wireless relay mode utilizes the wireless relay function of the AP to transmit the wireless signal from one relay point relay to the next relay point, and forms a new wireless coverage area, thereby forming a plurality of A wireless relay coverage point relay mode ultimately achieves the goal of extending the coverage of the wireless network.
- the WIFI module 504 is equivalent to a relay point, and relays and amplifies the received WIFI signal, and then transmits the received wireless signal through a modulation and demodulation method to form a wireless signal coverage.
- the Z-WAVE module 506 is connected to the first processor 502 through a communication interface, and the communication interface can be one of a USB interface, an SDIO interface, and an IIC interface.
- the Z-WAVE module can receive and transmit Z-WAVE through FSK modulation and demodulation. Protocol wireless signal.
- the Z-WAVE module 206 is set as a control device, specifically, there are two basic types of devices in the Z-WAVE protocol, which are control type devices. (Controller) and controlled device (Slave).
- the control type device can send control commands to other nodes, and the controlled device can respond to the corresponding control commands.
- the Z-WAVE module 506 receives the node identifier of the target Z-WAVE device obtained by parsing the wireless signal by the first processor 202, and sends the received Z-WAVE wireless signal to the target Z through the FSK modulation and demodulation method according to the node identifier. -WAVE device.
- the 433/868/915MHz transceiver module 508 is connected to the first processor 502 through a communication interface, and the communication interface can be one of a USB interface, an SDIO interface, and an IIC interface, and the 433/868/915MHz transceiver module 208 is set to receive mode. It is resident in the 433/868/915MHz frequency band and monitors the wireless signal in the 433/868/915MHz band.
- the listening frequency band of the 433/868/915MHz transceiver module 508 should be the same as the receiving frequency band of the 433/868/915 MHz communication device that needs to be forwarded. And the 433/868/915MHz transceiver module 208 communicates with the 433/868/915MHz communication device requiring signal forwarding using the same communication protocol, that is, a customized communication protocol. The 433/868/915MHz transceiver module 208 receives the wireless signal, and transmits the wireless signal to the first processor 202.
- the first processor 202 parses the wireless signal according to the customized protocol, and obtains the sending device identifier and the information content to determine the wireless
- the communication interface 510 is connected to the first processor 502.
- the communication interface 510 is further connected to the mobile device 512 for transmitting data of the first processor 502 to the mobile device 512, so that the mobile device performs the first processor with the communication interface. Data interaction.
- the communication interface 510 can be any one of a USB interface, an SDIO interface, and an IIC interface.
- the second processor 5122 in the mobile device 512 receives the analysis result transmitted by the first processor 502 and the wireless signal strength level, and sends a movement instruction to the control component according to the analysis result and the wireless signal strength level.
- the analysis result may be a node identifier of the target Z-WAVE device parsed from the first processor 502 in the Z-WAVE module and a transmission device identifier and information content obtained from the 433/868/915 MHz transceiver module 508.
- the wireless signal strength level can be the strength level of the WIFI wireless signal, which can be the strength level of the Z-WAVE wireless signal, and can be the strength of the wireless signal in the 433/868/915 MHz frequency band. grade.
- Control component 5124 receives the move command to move in accordance with the move command. For example, if an alarm message is obtained that resolves a wireless signal in the 33/868/915 MHz band, control component 5124 can move to the alarm to enhance the wireless signal at the alarm.
- the power module 5126 is coupled to the second processor 5122 to power the wireless signal augmentation system 500 to enable the wireless signal enhancement system to operate normally.
- the mobile device 512 is equipped with a video recording device, and the control component 5124 can be moved to an alarm location for recording.
- the wireless signal enhancement system transmits the analysis result and the wireless signal strength level analyzed by the first processor to the mobile device, so that the mobile device moves, and the solved conventional wireless signal enhancement device can only be in a fixed position.
- the problem of single wireless signal enhancement in the fixed area makes the wireless wireless signal augmentation system more suitable for enhancing the wireless signal under different circumstances, so that people can use it more conveniently.
- 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).
Abstract
Description
Claims (20)
- 一种无线信号增强设备,包括:至少两个不同类型的无线通信模块,用于接收对应的无线信号,将所述无线信号传输给第一处理器;第一处理器,与所述无线通信模块相连,用于接收所述无线通信模块传输的所述无线信号并对所述无线信号进行解析,得到解析结果;及接收所述无线信号的无线通信模块,还用于对所述无线信号进行增强处理。
- 根据权利要求1所述的设备,其特征在于,所述无线通信模块包括:WIFI模块,与所述第一处理器相连,所述WIFI模块设置为无线中继模式,用于将接收到的无线信号直接进行中继和放大后通过调制解调方式发送所述无线信号。
- 根据权利要求1所述的设备,其特征在于,所述无线通信模块包括:Z-WAVE模块,与所述第一处理器相连,所述Z-WAVE模块设置为控制设备,用于接收所述第一处理器对无线信号进行解析得到的目标Z-WAVE设备的节点标识,根据所述节点标识将接收到的所述无线信号通过调制解调方式发送给所述目标Z-WAVE设备。
- 根据权利要求1所述的设备,其特征在于,所述无线通信模块包括:433/868/915MHz收发一体模块,与所述第一处理器相连,所述433/868/915MHz收发一体模块设置为接收模式,用于监听433/868/915MHz频段的无线信号并接收所述无线信号,将所述无线信号传输到所述第一处理器,根据所述第一处理器对所述无线信号采用定制通信协议进行解析后得到的发送设备标识和信息内容来确定对所述无线信号进行转发的次数,根据所述转发的次数转发所述无线信号。
- 根据权利要求1所述的设备,其特征在于,所述无线通信模块还用于检测接收到的所述无线信号的信号强度,根据所述无线信号的信号强度确定当前无线信号区域的无线信号强弱等级,将所述无线信号区域的无线信号强弱等级传输给第一处理器。
- 根据权利要求5所述的设备,其特征在于,还包括:通讯接口,与所述第一处理器相连;及所述通讯接口还可连接移动设备,用于将第一处理器的数据传输到移动设备,以使移动设备通过通讯接口与所述第一处理器进行数据交互。
- 根据权利要求6所述的设备,其特征在于,所述通讯接口还与移动设备上的电源相连,用于给所述设备供电。
- 根据权利要求6所述的设备,其特征在于,所述第一处理器用于将所述解析结果和所述无线信号强弱等级通过所述通讯接口传输给移动设备,以使所述移动设备根据所述解析结果和所述无线信号强弱等级进行移动。
- 一种无线信号增强方法,包括:通过至少两个不同类型的无线通信模块接收对应的无线信号;对无线通信模块接收到的所述无线信号进行解析,得到解析结果;及通过所述无线通信模块对所述无线信号进行增强处理。
- 根据权利要求9所述的方法,其特征在于,通过所述无线通信模块对所述无线信号进行增强处理,包括:当接收所述无线信号的无线通信模块是WIFI模块时,通过所述WIFI模块将接收到的无线信号直接进行中继和放大后通过调制解调方式发送所述无线信号;当接收所述无线信号的无线通信模块是Z-WAVE模块时,通过所述Z-WAVE模块接收到的所述第一处理器对无线信号进行解析得到的目标Z-WAVE设备的节点标识,根据所述节点标识将接收到的所述无线信号通过调制解调方式发送给所述目标Z-WAVE设备;及当接收所述无线信号的无线通信模块是433/868/915MHz收发一体模块时,通过所述433/868/915MHz收发一体模块监听433/868/915MHz频段的无线信号并接收所述无线信号,将所述无线信号传输到所述第一处理器,根据所述第一处理器对所述无线信号采用定制通信协议进行解析后得到的发送设备标识和信息内容来确定对所述无线信号进行转发的次数,根据所述转发的次数转发所述无线信号。
- 根据权利要求9所述的方法,其特征在于,在通过所述无线通信模块 对所述无线信号进行增强处理之后,包括:检测接收到的所述无线信号的信号强度,根据所述无线信号的信号强度确定当前无线信号区域的无线信号强弱等级,将所述无线信号区域的无线信号强弱等级传输给所述第一处理器。
- 根据权利要求9所述的方法,其特征在于,在通过所述无线通信模块对所述无线信号进行增强处理之后,包括:当所述第一处理器通过通讯接口与移动设备连接时,将所述解析结果和所述无线信号强弱等级通过所述通讯接口传输给移动设备,以使所述移动设备根据所述解析结果和所述无线信号强弱等级进行移动。
- 一种无线信号增强系统,包括:至少两个不同类型的无线通信模块,用于接收对应的无线信号,将所述无线信号传输给第一处理器;第一处理器,与所述无线通信模块相连,用于接收所述无线通信模块传输的所述无线信号并对所述无线信号进行解析,得到解析结果;接收所述无线信号的无线通信模块,还用于对所述无线信号进行增强处理;及移动设备,用于接收所述第一处理器解析无线信号得到的解析结果和所述无线信号强弱等级,根据所述解析结果和所述无线信号强弱等级进行移动,所述移动设备与所述第一处理器相连。
- 根据权利要求13所述的系统,其特征在于,所述无线通信模块包括:WIFI模块,与所述第一处理器相连,所述WIFI模块设置为无线中继模式,用于将接收到的无线信号直接进行中继和放大后通过调制解调方式发送所述无线信号。
- 根据权利要求13所述的系统,其特征在于,所述无线通信模块包括:Z-WAVE模块,与所述第一处理器相连,所述Z-WAVE模块设置为控制设备,用于接收所述第一处理器对无线信号进行解析得到的目标Z-WAVE设备的节点标识,根据所述节点标识将接收到的所述无线信号通过调制解调方式发送给所述目标Z-WAVE设备。
- 根据权利要求13所述的系统,其特征在于,所述无线通信模块包括:433/868/915MHz收发一体模块,与所述第一处理器相连,所述433/868/915MHz收发一体模块设置为接收模式,用于监听433/868/915MHz频段的无线信号并接收所述无线信号,将所述无线信号传输到所述第一处理器,根据所述第一处理器对所述无线信号采用定制通信协议进行解析后得到的发送设备标识和信息内容来确定对所述无线信号进行转发的次数,根据所述转发的次数转发所述无线信号。
- 根据权利要求13所述的系统,其特征在于,所述无线通信模块还用于检测接收到的所述无线信号的信号强度,根据所述无线信号的信号强度确定当前无线信号区域的无线信号强弱等级,将所述无线信号区域的无线信号强弱等级传输给第一处理器。
- 根据权利要求13所述的系统,其特征在于,还包括:通讯接口,与所述第一处理器相连;及所述通讯接口还可连接移动设备,用于将第一处理器的数据传输到移动设备,以使移动设备通过通讯接口与所述第一处理器进行数据交互。
- 根据权利要求13所述的系统,其特征在于,所述移动设备包括:第二处理器,与所述通讯接口相连,用于接收到所述第一处理器传输的所述解析结果和所述无线信号强弱等级,根据所述解析结果和所述无线信号强弱等级向控制组件发送移动指令;控制组件,用于接收所述移动指令,根据接收到的所述移动指令控制所述移动设备移动;电源模块,用于给所述无线信号增强系统供电;及所述第二处理器还分别与所述控制组件和电源模块相连。
- 一个或多个存储有计算机可读指令的非易失性的计算机可读存储介质,所述计算机可读指令被一个或多个处理器执行时,使得所述一个或多个处理器执行以下步骤:通过至少两个不同类型的无线通信模块接收对应的无线信号;对无线通信模块接收到的所述无线信号进行解析,得到解析结果;及通过所述无线通信模块对所述无线信号进行增强处理。
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