TWM625442U - Common network communication system - Google Patents

Abstract

A common network communication system includes a signal generation device, an expansion device, a plurality of remote devices, and a plurality of unmanned aerial vehicles. The signal generation device transmits a fifth-generation mobile communication original signal, and the expansion device is arranged in a plurality of buildings. One of them receives the original signal of the fifth-generation mobile communication to generate a corresponding wireless enhanced signal to the outside world. Multiple signal blind spots are formed between the buildings. The remote devices receive the wireless enhanced signal respectively. The drones are respectively equipped with these remote devices and are distributed in the blind spots of the signal shielding. The remote devices respectively provide wireless enhanced signals to a plurality of communication devices in the buildings, and the distance between each drone is not greater than Wavelength of fifth-generation mobile communication signals.

Description

Common network communication system

The new model relates to a signal generating device, in particular to a common network communication system.

Due to the current living environment surrounded by buildings, it is easy to form dead spots for wireless signal transmission, especially for the fifth-generation mobile communication technology (hereinafter referred to as 5G) signal, because its wavelength is shorter than that of other existing frequency bands. It is more likely to cause interference, diffraction, reflection and other phenomena to attenuate its energy, so that the user's mobile phone cannot receive the signal of mobile communication, if the telecom operator chooses to add base stations to provide a wider range of signal distribution , will greatly increase the cost of equipment, therefore, how to avoid the attenuation of 5G signal energy due to environmental factors is one of the current research directions

Therefore, an object of the present invention is to provide a shared network communication system that can extend the signal propagation range.

Therefore, the novel shared network communication system includes a signal generating device, an expansion device, a plurality of remote devices, and a plurality of unmanned aerial vehicles.

The signal generating device transmits a fifth-generation mobile communication original signal.

The expansion device is installed in one of a plurality of buildings, and receives the original signal of the fifth-generation mobile communication in the form of wired transmission, and generates a corresponding wireless enhanced signal externally. A blind spot is defined as an area where the wireless enhanced signal cannot be received by the communication device.

The remote devices are respectively connected with the expansion device to receive the wireless enhanced signal.

The drones are respectively equipped with the remote devices and are distributed among the buildings, and several of the drones are distributed in the blind spots where the signals are shielded, and the remote devices are respectively directed to the buildings. A plurality of communication devices in the drone provide wireless enhanced signals, and the distance between each drone is not greater than the wavelength of the fifth-generation mobile communication signal.

In addition, another object of the present invention is to provide a shared network communication system that can extend the signal propagation range.

Therefore, the novel shared network communication system includes a signal generating device, an expansion device, a plurality of remote devices, and a plurality of unmanned aerial vehicles.

The signal generating device transmits a fifth-generation mobile communication original signal.

The expansion device is installed in one of the buildings, and performs wireless communication with the signal generating device to receive the fifth-generation mobile communication original signal and generate Corresponding to the wireless enhanced signal, a plurality of signal shielding dead spots are formed between these buildings. The definition of the signal shielding dead spot is the area where the wireless enhanced signal cannot be received by the communication device.

The remote devices are respectively connected with the expansion device to receive the wireless enhanced signal.

The drones are respectively equipped with the remote devices and are distributed among the buildings, and to several of the drones are distributed in the blind spots where the signals are shielded, the remote devices are respectively directed to the buildings. Multiple communication devices in the building provide wireless enhanced signals, and the distance between each drone is no greater than the wavelength of the fifth-generation mobile communication signal.

The effect of the new type is: receiving the amplified wireless signal through the remote devices, and using the drones to carry the remote devices respectively and distribute them among the buildings, so that each position between the buildings can be monitored. The communication device provides fifth-generation mobile communication signals.

2: Signal generation device

3: Host device

4: Expansion device

41: Micro Relay Unit

42: Amplification unit

5: Remote device

7: Building Construction

Other features and effects of the present invention will be clearly presented in the embodiments with reference to the drawings, wherein: FIG. 1 is a schematic diagram illustrating a first embodiment of the new shared network communication system; FIG. 2 is a block diagram , illustrating an expansion device of the first embodiment; and FIG. 3 is a schematic diagram illustrating a second embodiment of the novel shared network communication system.

Referring to FIG. 1, it is a first embodiment of a new type of shared network communication system, which includes a signal generating device 2, a host device 3, an expansion device 4, a plurality of remote devices 5, and a plurality of unmanned aerial vehicles .

The signal generating device 2 transmits a fifth-generation mobile communication original signal (hereinafter referred to as a 5G signal). In the first embodiment, the signal generating device 2 may be, for example, a 5G signal base station, and the number of the signal generating device 2 may also be multiple.

The host device 3 receives the 5G signal in the form of wired transmission, and transmits the fifth-generation mobile communication original signal to the expansion device 4. More specifically, the host device 3 and the signal generating device 2 communicate with each other through The optical fiber is electrically connected to receive the 5G signal.

The expansion device 4 is installed in one of a plurality of buildings 7, and receives the 5G signal in the form of wired transmission, and generates a corresponding wireless enhanced signal externally. The definition of dead space is the area where the wireless enhanced signal cannot be received by the communication device. Referring to FIG. 2, the expansion device 4 includes a micro-relay unit 41 electrically connected to the host device 3 by a cable, and an electrical connection The amplifying unit 42 of the micro-relay unit 41, the micro-relay unit 41 receives the 5G signal, and the amplifying unit 42 amplifies the power of the 5G signal to generate To generate the wireless enhanced signal, in the first embodiment, the expansion device 4 is an indoor distributed antenna system (Zone DAS: Distributed Antenna System).

The remote devices 5 communicate with the expansion device 4 respectively to receive the wireless enhanced signal. In the first embodiment, each remote device can use the wireless communication technology from the expansion device 4 to amplify the signal. The unit 42 receives the wireless enhanced signal, and can also receive the wireless enhanced signal from the amplifying unit 42 in the form of physical electrical connection with the amplifying unit 42 of the expansion device 4 .

The drones are respectively equipped with the remote devices 5 and are distributed among the buildings 7, and several of the drones are distributed in the blind spots of the signal shielding, and the remote devices 5 are respectively emitted to the outside The wireless enhanced signal, and the distance between each drone is not greater than the wavelength of the fifth-generation mobile communication signal.

In the above-mentioned first embodiment, the wireless enhanced signal is received by the remote devices 5, and then the remote devices 5 are respectively mounted on the drones and distributed in the blind spots where the signals are shielded, and the signals are shielded by the drones. The remote device 5 transmits the wireless enhanced signal externally, so that the communication device located in the blind spot where the signal is shielded receives the 5G signal and can communicate, thereby increasing the signal propagation range without increasing the number of base stations.

Referring to FIG. 3 , a second embodiment of the novel shared network communication system is different from the first embodiment in that in the second embodiment, the expansion device 4 generates the signal from the wireless communication technology The device 2 receives the 5G signal without transferring the 5G signal between the signal generating device 2 and the expansion device 4 through the host device 3 .

In the above-mentioned second embodiment, the wireless enhanced signal is received by the remote devices 5, and then the remote devices 5 are respectively mounted on the drones and distributed in the blind spots where the signals are shielded, and the signals are shielded by the drones. The remote device 5 transmits the wireless enhanced signal externally, so that the communication device located in the blind spot where the signal is shielded receives the 5G signal and can communicate, thereby increasing the signal propagation range without increasing the number of base stations. In addition, the expansion device 4 and The signal generating device 2 uses wireless communication technology for signal transmission, thereby saving the cost of constructing the host device 3 and required optical fiber transmission lines and cables.

To sum up, the present invention uses the remote devices 5 to receive wireless enhanced signals, and then uses the drones to carry the remote devices 5 and distribute them among the buildings and partially in the buildings. The signal shields the dead corners, and then can provide 5G signals to the communication devices at various locations in the building, so it can indeed achieve the purpose of this new model.

However, the above are only examples of the present invention, which should not limit the scope of implementation of the present invention. Any simple equivalent changes and modifications made according to the scope of the patent application for this new model and the contents of the patent specification are still within the scope of the present invention. within the scope of this patent.

2: Signal generation device

4: Expansion device

5: Remote device

7: Building Construction

Claims (8)

A shared network communication system, comprising: a signal generating device that transmits a fifth-generation mobile communication original signal; An expansion device is installed in one of a plurality of buildings, and receives the original signal of the fifth-generation mobile communication in the form of wired transmission, and generates a corresponding wireless enhanced signal externally. The definition of signal blind spot is the area where the wireless enhanced signal cannot be received by the communication device; a plurality of remote devices, respectively communicating with the expansion device to receive the wireless enhanced signal; and A plurality of drones, respectively equipped with the remote devices, are distributed among the buildings, and several of the drones are distributed in the blind spots where the signals are shielded, and the remote devices are respectively directed to the buildings. Multiple communication devices in the building provide wireless enhanced signals, and the distance between each drone is no greater than the wavelength of the fifth-generation mobile communication signal. The shared network communication system as claimed in claim 1, further comprising a host device that receives the fifth-generation mobile communication original signal in a wired transmission form and transmits the fifth-generation mobile communication original signal to the expansion device. The shared network communication system of claim 1, wherein the expansion device comprises a micro-relay unit electrically connected to the expansion device to receive the original signal of the fifth-generation mobile communication, and a micro-relay unit electrically connected to the micro-relay unit, and amplifying the power of the original signal of the fifth-generation mobile communication to generate the amplifying unit of the wireless enhanced signal. The shared network communication system as claimed in claim 1, wherein each remote device receives the wireless enhanced signal from the expansion device through wireless communication technology. A shared network communication system, comprising: a signal generating device that transmits a fifth-generation mobile communication original signal; An expansion device is installed in one of the buildings, and performs wireless communication with the signal generating device to receive the original signal of the fifth-generation mobile communication and generate corresponding wireless enhanced signals. Signal blind spot is defined as the area where the wireless enhanced signal cannot be received by the communication device; a plurality of remote devices, respectively communicating with the expansion device to receive the wireless enhanced signal; and A plurality of unmanned aerial vehicles, respectively equipped with these remote devices, are distributed among the buildings, and several of the unmanned aerial vehicles are distributed in the blind spots of the signal shielding, and the remote devices are respectively directed to these Multiple communication devices in the building provide wireless enhanced signals, and the distance between each drone is not greater than the wavelength of the fifth-generation mobile communication signal. The shared network communication system according to claim 5, wherein the expansion device comprises an antenna unit for receiving the original signal of the fifth-generation mobile communication, and an antenna unit electrically connected to the antenna unit, and amplifies the power of the original signal of the fifth-generation mobile communication to An amplifying unit that generates the wireless enhanced signal. The shared network communication system as claimed in claim 6, wherein each remote device is electrically connected to the expansion device by a physical line for signal transmission. The shared network communication system as claimed in claim 5, wherein each remote device and the expansion device respectively perform signal transmission through wireless communication technology.

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