JP3221236U - Communication system comprising a plurality of communication protocols, and integrated communication device - Google Patents

Abstract

A communication system having various communication protocols is provided. A communication system comprises a plurality of communication protocols including a first integrated communication device and a second integrated communication device. The first integrated communication device MC1 transmits a plurality of communication signals to the second integrated communication device MC2 through the integrated communication module, and the first integrated communication device MC1 transmits the second communication signal through the at least one integrated communication module IC1 to IC4. The plurality of communication signals transmitted by the integrated communication device MC2 of FIG. The first type communication units IC1-1 to IC4-1 in the first integrated communication device MC1 are connected to one another. [Selected figure] Figure 1

Description

  The present invention relates to a communication system and a communication apparatus, and more particularly to an integrated communication system and an integrated communication apparatus for integrating a plurality of communication protocols.

  In current life, multiple heavy communication protocols are used simultaneously, but the inability to transmit data to each other during different communication protocols is an inconvenience for the user. Also, for different transmission needs, a single communication protocol does not give the user a better experience.

  Therefore, providing a communication system that integrates multiple communication protocols is an important issue in the industry.

  In the technical problems to be solved by the present invention, the present invention provides a communication system having various communication protocols in response to the shortage of the existing technology.

  In order to solve the above technical problems, one of the technical means adopted by the present invention is to provide a communication system having the following various communication protocols. It comprises a first integrated communication device and a second integrated communication device. The first integrated communication device includes a first relay communication circuit disposed in the first integrated communication device, and a plurality of integrated communication modules disposed in the first integrated communication device. Each of the plurality of integrated communication modules in the first integrated communication device includes a first type communication unit and a second type communication unit. The first type communication unit of each integrated communication module is communicably connected to the second type communication unit of each integrated communication module. The plurality of integrated communication modules of the first integrated communication device are each electrically connected to the first relay communication circuit by its own first type communication unit. Each of the plurality of integrated communication modules of the first integrated communication device is communicably connected via the first relay communication circuit. The plurality of second type communication units of the plurality of integrated communication modules in the first integrated communication device each include one type of communication module. The second integrated communication device includes a second relay communication circuit disposed in the second integrated communication device, and a plurality of integrated communication modules disposed in the second integrated communication device. Each of the plurality of integrated communication modules in the second integrated communication device includes a first type communication unit and a second type communication unit. The first type communication unit of each integrated communication module is communicably connected to the second type communication unit of each integrated communication module. The plurality of integrated communication modules of the second integrated communication device are each electrically connected to the second relay communication circuit via the first type communication unit of its own. The plurality of integrated communication modules in the second integrated communication device are communicably connected via the second relay communication circuit. The plurality of second type communication units of the plurality of integrated communication modules in the second integrated communication device each include one type of communication protocol. In particular, the first integrated communication device and the second integrated communication device can be connected by any one of various communication protocols of the plurality of second type communication units in each of the plurality of integrated communication modules of their own. I do.

  Also, the integrated communication device provided by the present invention includes a first communication module, a second communication module, and a third communication module. The first communication module includes a first Bluetooth communication unit and a first LoRa communication unit. The first Bluetooth communication unit is communicably connected to the first LoRa communication unit. The second communication module includes a second Bluetooth communication unit and a second LoRa communication unit. The second Bluetooth communication unit is communicably connected to the second LoRa communication unit. The third communication module includes a third Bluetooth communication unit and a third LoRa communication unit. The third Bluetooth communication unit is communicably connected to the third LoRa communication unit. Among other things, the first integrated communication device transmits the plurality of first LoRa communication signals to the second integrated communication device through the first Bluetooth communication unit of the first communication module and the first LoRa communication unit. Do. The first integrated communication device is through the second Bluetooth communication unit and the second LoRa communication unit in the second communication module, and the third Bluetooth communication unit and the third LoRa communication unit in the third communication module. A plurality of second LoRa communication signals transmitted from the second integrated communication device are received. Among other things, the first Bluetooth communication unit is communicably connected to the second Bluetooth communication unit and the third Bluetooth communication unit.

  As one of the beneficial effects of the present invention, a communication system comprising a plurality of communication protocols according to the present invention is integrated into a communication unit having various communication protocols in the same device, and utilizes the same first type communication unit. It is possible to communicate with each other, and by downloading a plurality of dedicated downlink channel data quickly and uploading the data using the dedicated uplink channel, the transmission efficiency can be greatly improved. Multiple coding tables may be used to reduce the amount of data transmission to effectively process control commands between different protocols. Furthermore, the invention allows the different types of signals to be processed by appropriate communication methods so as to improve the processing efficiency by means of the communication connection between the first kind communication units of different integrated communication modules. Can.

FIG. 1 is a schematic view showing a communication system including a plurality of communication protocols according to an embodiment of the present invention. It is a schematic diagram which shows the integrated communication module and relay communication circuit which concern on embodiment of this invention. It is a schematic diagram by which the integrated communication system which concerns on embodiment of this invention is applied to a long distance communication system. It is a schematic diagram which shows the 1st integrated communication apparatus in FIG. FIG. 6 is another schematic view showing the first integrated communication device in FIG. 3;

  For a further understanding of the features and technical content of the present invention, reference is made to the following detailed description of the invention and the accompanying drawings. However, the attached drawings provided are for reference and explanation only and are not for limiting the claims of the present invention.

  From the following, an embodiment according to the "communication system and integrated communication apparatus having a plurality of communication protocols" disclosed by the present invention will be described in a specific example. Those skilled in the art can understand the merits and effects of the present invention through the disclosure content of the present specification. The present invention can be implemented or applied according to other different embodiments. Equal variations and modifications can be made to the various sections in the present specification based on various aspects or applications without departing from the spirit of the present invention. Also, the drawings of the present invention are for the purpose of simple and schematic explanation, and do not show practical dimensions. Although the technical matters according to the present invention will be further described in the following embodiments, the disclosed contents do not limit the present invention.

First Embodiment
Please refer to FIG. FIG. 1 is a schematic view showing a communication system provided with a plurality of communication protocols according to an embodiment of the present invention.

  In the present embodiment, the communication system 8 provided with a plurality of communication protocols includes a first integrated communication device MC1 and a second integrated communication device MC2. In the present embodiment, the first integrated communication device MC1 and the second integrated communication device MC2 are disposed in the first area 8-A and the second area 8-B, respectively. A distance is defined between the first area 8-A and the second area 8-B.

  The first integrated communication device MC1 includes a first relay communication circuit MID1 and a plurality of integrated communication modules. In the present embodiment, the first integrated communication device MC1 includes four integrated communication modules, and the four integrated communication modules are respectively a first integrated communication module IC1, a second integrated communication module IC2, and a third integrated communication module. A communication module IC3 and a fourth integrated communication module IC4.

  The second integrated communication device MC2 includes a second relay communication circuit MID2 and a plurality of integrated communication modules. In the present embodiment, the second integrated communication device MC2 includes four integrated communication modules, and the four integrated communication modules are respectively a fifth integrated communication module IC5, a sixth integrated communication module IC6, and a seventh integrated communication module. A communication module IC7 and an eighth integrated communication module IC8.

  The first relay communication circuit MID1 is disposed in the first integrated communication device MC1. The second relay communication circuit MID2 is disposed in the second integrated communication device MC2. In the present embodiment, the first relay communication circuit MID1 and the second relay communication circuit MID2 are integrated circuit buses (Inter-Integrated Circuit, I2C).

  The plurality of integrated communication modules IC1-IC4 in the first integrated communication device MC1 are disposed in the first integrated communication device MC1. The plurality of integrated communication modules IC1-IC4 in the second integrated communication device MC1 are disposed in the first integrated communication device MC1.

  In the present embodiment, the plurality of integrated communication modules IC1-IC4 in the first integrated communication device MC1 and the plurality of integrated communication modules IC5-IC8 in the second integrated communication device MC1 are respectively the first type communication unit IC1. -1 to IC 8-1 and second type communication units IC1-2 to IC8-2.

  In the present embodiment, the first type communication units IC1-1 to IC8-1 are communicably connected to the second type communication units IC1-2 to IC8-2.

  The plurality of integrated communication modules IC1-IC4 in the first integrated communication device MC1 are electrically connected to the first relay communication circuit MID1 via the respective first type communication units IC1-1 to IC4-1. Ru. The plurality of integrated communication modules IC1 to IC4 in the first integrated communication device MC1 are communicably connected via the first relay communication circuit MID1.

  The plurality of second type communication units IC1-2 to IC4-2 in the plurality of integrated communication modules IC1-IC4 of the first integrated communication device MC1 each include one type of communication protocol. That is, the second type communication units IC1-2 to IC4-2 may be LoRa communication unit, Sigfox communication unit, Wi-Fi communication unit, and IoT communication unit, respectively. The plurality of second-type communication units IC1-2 to IC4-2 in the plurality of integrated communication modules IC1-IC4 of the first integrated communication device MC1 may be communication units having the same protocol or communication units having different protocols.

  The plurality of integrated communication modules IC5-IC6 of the second integrated communication device MC2 are electrically connected to the second relay communication circuit MID2 through their own first type communication units IC5-1 to IC8-1. The plurality of integrated communication modules IC5-IC8 in the second integrated communication device MC2 are communicably connected via the second relay communication circuit MID2.

  The plurality of second type communication units IC5-2 to IC8-2 in the plurality of integrated communication modules IC5-IC8 of the second integrated communication device MC2 each include one type of protocol. That is, the second type communication units IC5-2 to IC8-2 may be LoRa communication unit, Sigfox communication unit, Wi-Fi communication unit, and IoT communication unit, respectively. In other words, the plurality of second type communication units IC5-2 to IC8-2 in the plurality of integrated communication modules IC5-IC8 of the second integrated communication device MC2 are communication units having the same protocol but having different protocols. May be.

  The first integrated communication device MC1 and the second integrated communication device MC2 communicate with the plurality of second-type communication units IC1 via the plurality of integrated communication modules IC1-IC4 and the plurality of integrated communication modules IC5-IC8. -1- communicably connected to one of various communication protocols in IC8-1.

  That is, the first integrated communication device MC1 and the second integrated communication device MC2 are communicably connected through the second type communication unit having the same communication protocol.

  The plurality of integrated communication modules IC1-IC8 in each of the first integrated communication device MC1 and the second integrated communication device MC2 each include a coding table.

  The plurality of integrated communication modules IC1 to IC8 in each of the first integrated communication device MC1 and the second integrated communication device MC2 are respectively based on their own coding tables, and each of their own first type communication unit IC1-1. To encode and decode the reception signal or transmission signal of the second to third communication units IC1-2 to IC8-2.

  In the present embodiment, the first type communication units IC1-1 to IC8-1 include a Bluetooth communication unit, a Wi-Fi communication unit, and a Zigbee communication unit. For example, if the first type communication units IC1-1 to IC8-1 are Bluetooth communication units, the integrated communication modules IC1 to IC8 use the communication protocol including Bluetooth as the communication protocol of the second type communication unit. It needs to include a coding table to convert.

  For example, if the second type of communication unit is a LoRa communication unit, the integrated communication module needs to include a coding table for converting a communication protocol comprising Bluetooth (registered trademark) to the LoRa communication protocol.

  This coding table is a collection of Bluetooth transmission protocol and LoRa communication protocol instructions. In other words, the coding table integrates the instruction set and the same content of data in the complex Bluetooth transmission protocol and recompiles a new instruction set. The data transfer rate of this instruction set is much less than the data transfer rate of the Bluetooth transmission protocol. Furthermore, because of the large amount of compressed transmission data, the LoRa communication unit transmits less data, but still transmits or receives the same data content.

  Similarly, coding tables between other protocols are also created as described above.

  In the present embodiment, the communication unit for communicably connecting the first integrated communication device MC1 and the second integrated communication device MC2 to each other includes at least one upstream channel and one downstream channel. In other embodiments, the first integrated communication device MC1 and the second integrated communication device MC2 may include more than one downlink channel to speed up data download efficiency. In another embodiment, the first integrated communication device MC1 and the second integrated communication device MC2 may include a plurality of downlink channels and an uplink channel of the same quantity. For example, three upstream channels and three downstream channels may be included.

  In the present embodiment, one of the plurality of integrated communication modules IC1-IC4 in the first integrated communication device MC1 is used as an upstream channel for transmitting a plurality of communication signals to the second integrated communication device MC2. Only. The other one of the plurality of integrated communication modules IC1-IC4 in the first integrated communication device MC1 is used as a downlink channel for receiving a plurality of communication signals transmitted by the second integrated communication device MC2 It is only. In the present embodiment, the first integrated communication module IC1 and the fourth integrated communication module IC4 are used as uplink channels. The second integrated communication module IC2 and the third integrated communication module IC3 are used as downstream channels.

The second integrated communication device MC2 may be arranged with the same channel as the first integrated communication device MC1, which may be adjusted based on the actual requirements and is not limited in this disclosure.
In the present embodiment, the first integrated communication device MC1 further includes an edge operation module ED1. The edge calculation module ED1 is an instant computing module that is locally disposed. That is, the edge calculation module ED1 receives an instruction that needs to be operated in real time, and performs the real time processing locally without being transmitted to the cloud server or the remote server by long distance communication or long time communication.

  In the present embodiment, the edge calculation module ED1 includes an edge first type communication unit ED1-1 and an edge calculation unit ED1-2.

  In the present embodiment, the edge first type communication unit ED1-1 is a first type communication unit in the plurality of integrated communication modules IC1-IC4 of the first integrated communication device in order to receive a predetermined edge signal. It is communicably connected to the IC1-1 to IC4-1. Furthermore, the edge first type communication unit ED1-1 transmits the first type communication unit IC1-IC4 in the plurality of integrated communication modules IC1-IC4 of the first integrated communication device MC1 via the first relay communication circuit MID1. It may be electrically connected to 1 to IC 4-1. In the present embodiment, the edge first type communication unit ED1-1 is a communication unit similar to the first type communication units IC1-1 to IC4-1 of the plurality of integrated communication modules IC1-IC4.

  The edge calculating unit ED1-2 generates an edge response signal by receiving a predetermined edge signal received by the first edge type communication unit ED1-1 and performing calculation on the predetermined edge signal. Do. The edge response signal is transmitted through the edge first type communication unit ED1-1. In the present embodiment, the edge first type communication unit ED1-1 is communicably connected to the edge calculation unit ED1-2.

  Please refer to FIG. FIG. 3 is a schematic view of a communication system having a plurality of communication protocols according to the embodiment of the present invention applied to a long distance communication system.

  In the present embodiment, the long distance communication system 1 is disposed in the first area 1-A and the second area 1-B. A first distance D is defined between the first area 1-A and the second area 1-B. In the present embodiment, the first distance D can be from 15 km to 20 km.

  The long distance communication system 1 includes a first integrated communication device BL-1 and a second integrated communication device BL-2. The first integrated communication device BL-1 is disposed in the first area 1-A, and the second integrated communication device BL-2 is disposed in the second area 1-B.

  The first integrated communication device BL-1 includes a first communication module 11, a second communication module 12, a third communication module 13, and a seventh communication module 17. The second integrated communication device BL-2 includes a fourth communication module 14, a fifth communication module 15, a sixth communication module 16, and an eighth communication module 18.

  In the present embodiment, the first communication module 11 and the seventh communication module 17 are used to transmit a plurality of first LoRa communication signals. The second communication module 12 and the third communication module 13 are used to receive a plurality of second LoRa communication signals transmitted by the second integrated communication device BL-2. The fourth communication module 14 and the eighth communication module 18 are used to emit a plurality of second LoRa communication signals. The fifth communication module 15 and the sixth communication module 16 are used to receive a plurality of first LoRa communication signals transmitted by the first integrated communication device BL-1.

  In the present embodiment, the first communication module 11 and the seventh communication module 17 are both used to transmit the first LoRa communication signal in common, but in other embodiments, to reduce costs. The first LoRa communication signal may be transmitted using only the first communication module 11. That is, in the present invention, the uplink channel (the transmission of the LoRa communication signal) and the downlink channel (the reception of the LoRa communication signal) of the LoRa communication signal are processed by different communication modules. Also, in the present embodiment, the number of uplink channels may be equal to or less than the number of downlink channels. Further, the number of downlink channels (reception of LoRa communication signal) in the present embodiment can be adjusted according to actual needs, and is not limited to the present invention. That is, the number of downlink channels is 2 to N, and N is infinite.

Similarly, since the number of uplink channels and the number of downlink channels in the second integrated communication device BL-2 are the same as in the first integrated communication device BL-1, the description will not be repeated here.
The communication module 11-18 includes the first Bluetooth communication unit 11-1 to the eighth Bluetooth communication unit 18-1 and the first LoRa communication unit 11-2 to the eighth LoRa communication unit 18-2, respectively. Including.

  In the present embodiment, the first Bluetooth communication unit 11-1 to the eighth Bluetooth communication unit 18-1 can communicate with the first LoRa communication unit 11-2 to the eighth LoRa communication unit 18-2, respectively. Connected

  In the present embodiment, the Bluetooth communication unit of each communication module and the LoRa communication unit are communicably connected by a universal asynchronous receiver / transmitter.

  The first integrated communication device BL-1 transmits the plurality of first LoRa communication signals through the first Bluetooth communication unit 11-1 of the first communication module 11 and the first LoRa communication unit 11-2. It makes a call to the second integrated communication device BL-2.

  The first integrated communication device BL-1 is connected to the second Bluetooth communication unit 12-1 and the second LoRa communication unit 12-2 in the second communication module 12, and the third Bluetooth in the third communication module 13. A plurality of second LoRa communication signals transmitted by the second integrated communication device BL-2 are received through the communication unit 13-1 and the third LoRa communication unit 13-2.

  In the present embodiment, the second integrated communication device BL-2 includes the fourth Bluetooth communication unit 14-1 and the fourth LoRa communication unit 14-2 in the fourth communication module 14, and the eighth communication module 18. The eighth Bluetooth communication unit 18-1 and the eighth LoRa communication unit 18-2 and the plurality of second LoRa communication signals are transmitted to the first integrated communication device BL-1. In another embodiment, the second integrated communication device BL-2 is connected to only the fourth Bluetooth communication unit 14-1 and the fourth LoRa communication unit 14-2 in the fourth communication module 14 as a plurality of second communication devices. The LoRa communication signal may be transmitted to the first integrated communication device BL-1.

  The second integrated communication device BL-2 is configured of the fifth Bluetooth communication unit 15-1 and the fifth LoRa communication unit 15-2 in the fifth communication module 15, and the sixth Bluetooth in the sixth communication module 16. A plurality of first LoRa communication signals transmitted by the first integrated communication device BL-1 are received through the communication unit 16-1 and the sixth LoRa communication unit 16-2.

  In the present embodiment, the first Bluetooth communication unit 11-1 communicates with the second Bluetooth communication unit 12-1, the third Bluetooth communication unit 13-1, and the seventh Bluetooth communication unit 17-1. Connectable. The fourth Bluetooth communication unit 14-1 is communicably connected to the fifth Bluetooth communication unit 15-1, the sixth Bluetooth communication unit 16-1, and the eighth Bluetooth communication unit 18-1. . The Bluetooth communication units of each communication module in the first integrated communication device BL-1 are communicably connected to each other via an integrated circuit bus (Inter-Integrated Circuit, I2C).

  The first integrated communication device BL-1 includes a first coding table (First Code Book), and the second integrated communication device BL-2 includes a second coding table (Second Code Book). The first coding table and the second coding table are similar coding tables. In the present embodiment, the first LoRa communication signal transmitted by the first integrated communication device BL-1 and the second LoRa communication signal transmitted by the second integrated communication device BL-2 are respectively the first. It is a LoRa communication signal converted by the coding table and the second coding table.

  In the present embodiment, the first coding table and the second coding table are a set of instructions for the Bluetooth transmission protocol and the LoRa communication protocol. In other words, the first coding table and the second coding table combine the instruction set and the same content of data in the complex Bluetooth transmission protocol and recompile a new instruction set. The data transfer rate of this instruction set is much less than the data transfer rate of the Bluetooth transmission protocol. Furthermore, because of the large amount of compressed transmission data, the LoRa communication unit transmits less data, but still transmits or receives the same data content.

  When receiving the signal, the first integrated communication device BL-1 converts the plurality of received second LoRa communication signals into a plurality of second Bluetooth signals based on the first coding table. The data amount of the converted plurality of second Bluetooth signals has a first compression ratio as compared to the data amount of the plurality of second LoRa communication signals. The second integrated communication device BL-2 converts the plurality of received first LoRa communication signals into a plurality of first Bluetooth signals based on the second coding table. At this time, the data amount of the plurality of first Bluetooth signals has a second compression ratio as compared to the data amount of the plurality of first LoRa communication signals. Since the first coding table and the second coding table used by the first integrated communication device BL-1 and the second integrated communication device BL-2 are the same, the first compression ratio is the second compression ratio. It is equal to the compression ratio.

  When transmitting a signal, the first integrated communication device BL-1 converts a plurality of third Bluetooth signals into a plurality of first LoRa communication signals based on the first coding table, and transmits the signals. The data amount of the plurality of third Bluetooth signals has a third compression ratio as compared to the data of the plurality of first LoRa communication signals. The second integrated communication device BL− converts the plurality of fourth Bluetooth signals into a plurality of second LoRa communication signals based on the second coding table. The data amount of the plurality of fourth Bluetooth signals has a fourth compression ratio as compared to the data amount of the plurality of second LoRa communication signals. Since the first coding table and the second coding table used by the first integrated communication device BL-1 and the second integrated communication device BL-2 are the same, the third compression ratio is It becomes equal to the compression ratio of 4.

  Please refer to FIG. The first integrated communication device BL-1 further includes an edge Bluetooth communication unit 91 and an edge calculation unit 92.

  In the present embodiment, the edge Bluetooth communication unit 91 is used as a first Bluetooth communication unit 11-1, a second Bluetooth communication unit 12-1, a third Bluetooth communication unit 13-1, and a seventh Bluetooth communication unit. Are also communicably connected.

  The edge Bluetooth communication unit 91 is used to receive a predetermined edge signal. That is, control signals according to a particular situation are not suitable for transmission and calculation to the cloud server through long distance communication. Thus, by locating the local edge calculator 92, these predetermined edge signals are immediately calculated or responded to to improve the efficiency.

  Therefore, in the present embodiment, the edge computing unit 92 receives a predetermined edge signal received by the edge Bluetooth communication unit 91, and performs calculation or response to the predetermined edge signal. Thereby, an edge response signal is generated. The edge response signal is transmitted through the edge Bluetooth communication unit.

  In the present embodiment, the second integrated communication device BL-2 arranges the edge operation unit 92 and the edge Bluetooth communication unit 91 having the same configuration or function as the first integrated communication device BL-1 in a corresponding manner. It is also good. It can be adjusted according to the actual needs, and the invention is not limited thereto.

  In the present embodiment, the long distance communication system 1 further includes a first indoor Bluetooth communication unit group BT-1. The first indoor Bluetooth communication unit group BT-1 includes a plurality of first indoor Bluetooth communication units 21-23 arranged in the first area 1-A. The plurality of first indoor Bluetooth communication units 21 to 23 are communicably connected to the first integrated communication device BL-1. In the present embodiment, the number of first indoor Bluetooth communication units can be adjusted according to the actual needs, and the present invention is not limited thereto.

  Further, the long distance communication system 1 further includes a second indoor Bluetooth communication unit group BT-2. The second indoor Bluetooth communication unit group BT-1 includes a plurality of second indoor Bluetooth communication units 24-26 arranged in the second area 1-B. The plurality of second indoor Bluetooth communication units 24 to 26 are communicably connected to the second integrated communication device BL-2. In this embodiment, the quantity of the second indoor Bluetooth communication unit can be adjusted according to the actual needs, and the present invention is not limited thereto.

  Please refer to FIG. The first integrated communication device BL-1 'in FIG. 3 and the first integrated communication device BL-1 in FIG. 2 are almost the same in configuration, but the main difference is that the first integrated communication device BL-' 1 'further includes a Wi-Fi communication module (WiFi Communication module) 93' and an IoT communication module (IoT communication module) 94 '. That is, the edge Bluetooth communication with the first communication module 11 ′, the second communication module 12 ′, the third communication module 13 ′, and the seventh communication module 17 ′ in the first integrated communication device BL-1 ′ The unit 91 ′ and the edge operation unit 92 ′ are all the first communication module 11, the second communication module 12, the third communication module 13, and the seventh in the first integrated communication device BL-1. The communication module 17, the edge Bluetooth communication unit 91, and the edge operation unit 92 are the same as those in the above, and therefore the description will not be repeated here.

  In the present embodiment, the Wi-Fi communication module 93 'includes a Wi-Fi communication unit 93-2' and a Wi-Fi Bluetooth communication unit 93-1 '. The Wi-Fi Bluetooth communication unit 93-1 'is a first Bluetooth communication unit 11-1', a second Bluetooth communication unit 12-1 ', a third Bluetooth communication unit 13-1', and a seventh Bluetooth communication. The unit 17-1 'and the edge Bluetooth communication unit 91' are communicably connected.

  In this embodiment, the Wi-Fi communication unit 93-2 'of the Wi-Fi communication module 93' is communicably connected to the Internet and has a larger bandwidth, so it transfers a large amount of data. It can be used.

  The IoT communication module 94 'also includes an IoT communication unit 94-2' and an IoT Bluetooth communication unit 94-1 '.

  The IoT Bluetooth communication unit 94-1 'includes a first Bluetooth communication unit 11-1', a second Bluetooth communication unit 12-1 ', a third Bluetooth communication unit 13-1', and a seventh Bluetooth communication unit 17 -1 ', the edge Bluetooth communication unit 91', and the Wi-Fi Bluetooth communication unit 93-1 'are communicably connected.

In the present embodiment, the IoT communication unit 93-2 'is communicably connected to a cloud server (not shown). Therefore, the IoT communication unit 93-2 'can be used to receive and transmit the IoT control signal.
[Beneficial effect according to the embodiment]

  Coding Table As a conclusion, a communication system comprising a plurality of communication protocols according to the present invention is integrated into a communication unit having various communication protocols in the same device, and communicate with each other using the same first type communication unit The transmission efficiency can be significantly improved by quickly downloading a plurality of dedicated downlink channel data and uploading the data using the dedicated uplink channel. Multiple coding tables may be used to reduce the amount of data transmission to effectively process control commands between different protocols. Furthermore, the invention allows the different types of signals to be processed by appropriate communication methods so as to improve the processing efficiency by means of the communication connection between the first kind communication units of different integrated communication modules. Can.

  The contents disclosed above are only preferred embodiments of the present invention and do not limit the scope of the claims of the present invention. It is intended that all equivalent technical modifications be included in the claims of the present invention.

1 long distance communication system 1-A, 8-A first area 1-B, 8-B second area BL-1, MC1 first integrated communication device BL-2, MC2 second integrated communication device BT -1, BL-1 'first indoor Bluetooth communication unit group BT-2 second indoor Bluetooth communication unit group 11, 11' first communication module 12, 12 'second communication module 13, 13' third Communication module 14 fourth communication module 15 fifth communication module 16 sixth communication module 17 seventh communication module 18 eighth communication module 21-23 first indoor Bluetooth communication unit 24-26 second indoor Bluetooth communication unit 11-1, 11-1 'first Bluetooth communication unit 12-1, 12-1' second Bluetooth communication unit 13-1, 13-1 ' Third Bluetooth communication unit 14-1 Fourth Bluetooth communication unit 15-1 Fifth Bluetooth communication unit 16-1 Sixth Bluetooth communication unit 17-1, 17-1 'Seventh Bluetooth communication unit 18-1 Eight Bluetooth communication units 11-2, 11-2 'first LoRa communication unit 12-2, 12-2' second LoRa communication unit 13-2, 13-2 'third LoRa communication unit 14-2 Fourth LoRa Communication Unit 15-2 Fifth LoRa Communication Unit 16-2 Sixth LoRa Communication Unit 17-2, 17-2 'Seventh LoRa Communication Unit 18-2 Eighth LoRa Communication Unit 91, 91 'Edge Bluetooth communication unit 92, 92', ED1-2 Edge operation unit 93 'Wi-Fi communication module 94' IoT communication module 93-1 'Wi-Fi Bluetooth communication unit 93-2' Wi-Fi communication unit 94-1 'IoT Bluetooth communication unit 94-2' IoT communication unit 8 Communication system comprising multiple communication protocols MC1 First integrated communication device MC2 Second integrated communication device IC1 to IC8 First integrated communication module to eighth integrated communication module IC1-1 to IC8-1 First type communication unit IC1-2 to IC8-2 Second type communication unit ED1 Edge operation module ED1-1 Edge 1st type communication unit

Claims (7)

A communication system comprising a plurality of communication protocols, comprising a first integrated communication device and a second integrated communication device, comprising:
A first relay communication circuit and a plurality of integrated communication modules are disposed in the first integrated communication device, and a second relay communication circuit and a plurality of integrated communication modules are disposed in the second integrated communication device,
The plurality of integrated communication modules in the first integrated communication device each include a first type communication unit and a second type communication unit,
The first type communication unit of each integrated communication module is communicably connected to the second type communication unit of each integrated communication module,
The plurality of integrated communication modules in the first integrated communication device are each electrically connected to the first relay communication circuit through the first type communication unit of its own, and the plurality of integrated communication modules in the first integrated communication device Each of the plurality of integrated communication modules communicably connects through the first relay communication circuit,
Each of the plurality of second type communication units in the plurality of integrated communication modules of the first integrated communication device includes one type of communication protocol,
The plurality of integrated communication modules in the second integrated communication device each include a first type communication unit and a second type communication unit, and the first type communication unit for each integrated communication module is the integrated The plurality of integrated communication modules in the second integrated communication apparatus are communicably connected to the second type communication unit for each communication module, and the plurality of integrated communication modules in the second integrated communication apparatus are configured to transmit the second Electrically connected to the relay communication circuit,
The plurality of integrated communication modules in the second integrated communication device are communicably connected via the second relay communication circuit, respectively.
Each of the plurality of second type communication units in the plurality of integrated communication modules of the second integrated communication device includes one type of communication protocol,
The first integrated communication device and the second integrated communication device communicate according to one of the plurality of communication protocols in the plurality of second type communication units of the plurality of integrated communication modules of their own. Communication system characterized in that it enables connection.     Each of the plurality of integrated communication modules in each of the first integrated communication device and the second integrated communication device includes a coding table, and in each of the first integrated communication device and the second integrated communication device. The plurality of integrated communication modules code and decode data transmitted and received by the first type communication unit and the second type communication unit respectively based on the own coding table. The communication system according to claim 1, wherein     Two of the plurality of integrated communication modules in the first integrated communication device respectively have an upstream channel for transmitting a plurality of communication signals to the second integrated communication device, and the second integrated communication device The communication system according to claim 2, wherein the communication system is used as a downlink channel for receiving a plurality of communication signals transmitted by the network. The first integrated communication device further includes an edge operation module including an edge first type communication unit and an edge operation unit,
The edge first type communication unit is communicably connected to the first type communication unit in the plurality of integrated communication modules of the first integrated communication device, and is used to receive a predetermined edge signal. ,
The edge operation unit receives the predetermined edge signal received by the first edge communication unit, performs calculation on the predetermined edge signal, and generates an edge response signal, the edge response signal being The communication according to claim 1, characterized in that it is transmitted via the edge first type communication unit, and the edge first type communication unit is communicably connected to the edge operation unit. system. An integrated communication device comprising a first communication module, a second communication module, and a third communication module, comprising:
The first communication module includes a first Bluetooth communication unit and a first LoRa communication unit, and the first Bluetooth communication unit is communicably connected to the first LoRa communication unit.
The second communication module includes a second Bluetooth communication unit and a second LoRa communication unit, and the second Bluetooth communication unit is communicably connected to the second LoRa communication unit.
The third communication module includes a third Bluetooth communication unit and a third LoRa communication unit, and the third Bluetooth communication unit is communicably connected to the third LoRa communication unit.
The first integrated communication device transmits a plurality of first LoRa communication signals to a second integrated communication device through the first Bluetooth communication unit and the first LoRa communication unit in the first communication module. The first integrated communication device includes the second Bluetooth communication unit and the second LoRa communication unit in the second communication module, and the third Bluetooth communication unit and the third communication module in the third communication module. Receiving a plurality of second LoRa communication signals transmitted by the second integrated communication device through a third LoRa communication unit;
The integrated communication device, wherein the first Bluetooth communication unit is communicably connected to the second Bluetooth communication unit and the third Bluetooth communication unit. An integrated communication device further including a seventh communication module including a seventh LoRa communication unit and a seventh Bluetooth communication unit, wherein the seventh Bluetooth communication unit includes the first Bluetooth communication unit; The seventh Bluetooth communication unit, which is electrically connected to the second Bluetooth communication unit, the third Bluetooth communication unit, and the edge Bluetooth communication unit, and the seventh Bluetooth communication unit is communicably connected to the seventh LoRa communication unit;
6. Integration according to claim 5, characterized in that the seventh LoRa communication unit transmits the plurality of first LoRa communication signals together with the first LoRa communication unit to the second integrated communication device. Communication device. An integrated communication device further comprising a Bluetooth communication unit, a Wi-Fi communication module, an IoT communication module, and an edge computing unit,
The Wi-Fi communication module includes a Wi-Fi communication unit and a Wi-Fi Bluetooth communication unit.
The IoT communication module includes an IoT communication unit, an IoT Bluetooth communication unit, and an edge Bluetooth communication unit, and the edge Bluetooth communication unit includes the first Bluetooth communication unit, the second Bluetooth communication unit, and a third Bluetooth communication unit. Communicably connected to the communication unit and used to receive a predetermined edge signal,
The edge operation unit receives the predetermined edge signal received by the edge Bluetooth communication unit, performs calculation on the predetermined edge signal to generate an edge response signal, and the edge response signal is The information is transmitted through the edge Bluetooth communication unit, and the edge Bluetooth communication unit is communicably connected to the edge computing unit.
The Wi-Fi Bluetooth communication unit can communicate with the first Bluetooth communication unit, the second Bluetooth communication unit, the third Bluetooth communication unit, the seventh Bluetooth communication unit, and the edge Bluetooth communication unit. Connected to
The Wi-Fi communication unit in the Wi-Fi communication module is used to transmit a large amount of data,
The IoT Bluetooth communication unit includes the first Bluetooth communication unit, the second Bluetooth communication unit, the third Bluetooth communication unit, the seventh Bluetooth communication unit, the edge Bluetooth communication unit, and the Wi-Fi. It is communicably connected to the Bluetooth communication unit,
The integrated communication device according to claim 6, wherein the IoT communication unit is used to receive and transmit an IoT control signal.