TR201809013A2 - A GATEWAY AND A COMMUNICATION NETWORK WITH THIS GATEWAY - Google Patents

Abstract

At a first communication frequency, at least one source device 211 configured to communicate in a first communication protocol, and at a second communication frequency in a group of devices 210 including at least one target device 212 configured to communicate in a second communication protocol. a gateway (100) for communicating the devices (210). Accordingly, it comprises a first communication module (111a) operating at said first communication frequency and a communication unit (110) having at least one second communication module (111b) operating at said second communication frequency; a processor unit (120) associated with said communication module (111) for data exchange; detecting a first signal in the first communication protocol received from said source device (211) by means of the first communication module (111a) of said processor unit (120) and enabling the first signal to be sent to a target device (212) in the second communication protocol via the second communication module (111b). is configured. Figure 1

Description

TECHNICAL FIELD The invention is in a first communication frequency, a first communication protocol. at least one source device and a second communication device configured to communicate frequency, configured to communicate in a second communication protocol. to enable devices in a device group containing at least one target device to communicate. It is related to the gateway and a communication network that hosts these gateways.

PRIOR ART Production areas such as factories, ports, marinas, construction sites, etc. operational in environments such as In terms of safety and security, personnel and material should be monitored. This Along with the need for communication for monitoring, many wired and wireless has brought the network structure. Wired or wireless communication between fixed points can happen. However, only wireless communication between mobile points possible. Wireless networks are based on frequency, channel width, modulation and access. is separating. Since each parameter has its own advantages and disadvantages, the devices are different. It performs wireless communication using frequencies and protocols. For example As the frequency increases, the antennas get smaller and the device goes down to ergonomic dimensions. But At the same time, since the losses in the signal propagation increase with the frequency, the communication distance decreases. The wide communication channel in some networks allows high data rates. but it is only used at short distances with increased channel noise.

It communicates with protocols such as WiFi, Bluetooth (BT), ZigBee that have emerged in recent years. Wireless networks have spread rapidly and the need for communication with each other has arisen. has removed. For example, with a 'Bluetooth' mobile phone working in the ZigBee band it is not possible to reach a sensor, therefore separate communication protocols or It is necessary to use separate devices to access the networks operating at frequencies or More than one gateway must be used. For different protocols and different frequencies The use of separate gateways also reduces the data transfer rate.

Communication between networks currently used is via WiFi. So different All of the communication units in the networks are connected to the same WiFi, network or WiFi. must be connected to the internet. However, the low-power sensors' WiFi Since they are not connected to the network, communication with these sensors is via BT. This In this case, there is a lack and incompatibility in communication. As a result, the above the existence of problems, the inadequacy of existing solutions, the resulting confusion and the high cost has made it necessary to make a development in the related technical field.

BRIEF DESCRIPTION OF THE INVENTION The present invention is aimed at eliminating the above mentioned disadvantages and providing the relevant technical field. a gateway and a communication with this gateway to bring new advantages related to the network.

An object of the invention is to use different communication frequencies and/or different communication protocols. A flexible gateway and this type of network that enables working devices to communicate with each other. It is to present a communication network containing the gateways.

Another aim of the invention is to provide a gateway that is easy to upgrade from a hardware point of view. is to reveal.

All the above-mentioned purposes that will emerge from the detailed description below. The present invention to realize a first communication frequency at least one source device configured to communicate in the communication protocol, and to communicate on a second communication frequency, on a second communication protocol of devices in a device group that contains at least one target device configured It is a gateway to enable communication. Accordingly, the first communication mentioned a first communication module operating at the frequency and said second communication module a communication unit with at least one second communication module operating at the frequency contain; a processor associated with the said communication module in such a way as to provide data exchange. includes the unit; of said processing unit via the first communication module. a first signal in the first communication protocol received from said source device will detect and transmit the first signal to a target device via the second communication module. It is configured in a way that allows it to be sent in the communication protocol.

Thus, the communication of devices that communicate on different frequencies or protocols is provided.

A preferred embodiment of the invention is characterized by first communication modules and second ZigBee communication module of communication modules, Bluetooth 4.1 communication module, Bluetooth 4.2 communication module, Bluetooth 5.0 communication module, 315MHz communication module, 433MHZ communication module, 868MHZ communication module, Lora communication It is selected from among the modules.

Another preferred embodiment of the invention is characterized in that it includes a server; communication the unit includes a WiFi communication module; of the processor unit received from the source device. sending the first signal to the server via the WiFi communication module. that it is configured to provide Thus, data received from some devices It is also provided to be saved on the server, and later access is allowed.

Another preferred embodiment of the invention is that the communication unit consists of modules. It contains at least two module slots for connection.

Another preferred embodiment of the invention is the module slot and communication modules are provided in a form compatible with each other.

Another preferred embodiment of the invention is that the communication modules are radio connected to its electronic circuit, which allows it to send and receive radio waves. comprising at least one fastener; module slot also has at least one associated processor unit. including the co-connector; communication module and module slot, communication The module is positioned in the module slot and the connector is in contact with the co-connector. a first position in which the fastener stands apart from the co-connector it is configured to allow it to take the second position.

Another preferred embodiment of the invention is that the communication module transmit an identification signal after contacting the co-connector of the is configured to generate the identification signal, and the processor unit also communication of the communication module connected according to the receiver and identification signal. It is configured to detect the protocol and communication frequency.

Thus, the communication modules can be inserted and removed to the communication unit. can be placed, communication modules can be connected with communication modules according to different needs. change is allowed. Thus, according to the devices in the area to be used, the network Necessary communication modules can be installed on the gateways, modules can be removed.

The invention also includes a plurality of gateways as above and between said gateways. It is a communication network that includes at least one server that provides data exchange.

Another preferred embodiment of the invention is that each gateway can be customized as needed. Bluetooth 4.1 communication module, Bluetooth 4.2 communication module, Bluetooth 5.0 communication module, Sub 1 Ghz communication module selected among contains modules.

Another preferred embodiment of the invention is that each gateway is connected to the server. at least one router to enable it to connect to a communications network with it contains.

BRIEF DESCRIPTION OF THE FIGURE A representative view of the gateway is given in Figure 1.

A representative view of the communication network is given in Figure 2.

Figure 3 is a representative view of a possible configuration of the communication network. given.

In Figure 4, a representative view of the communication module and communication unit is given.

DETAILED DESCRIPTION OF THE INVENTION In this detailed description, the subject of the invention is only for a better understanding of the subject. It is explained with examples that will not have a restrictive effect.

With reference to Figure Z, the subject of the invention is different communication protocols or different from each other. It allows devices (210) communicating at communication frequencies to exchange data with each other. at least one gateway (100) and at least one associated with these gateways (100) to provide it is a communication network (10) that contains the server (400).

Referring to an exemplary configuration in Figure 1, the communication network (450) is a multiplex communication a communication unit (110) containing the module (111). Each communication module (111) on different communication frequencies or different communication protocols. It is configured to send and receive radio waves. Communication modules (111) to provide radio wave reception and radio wave propagation. As is well known in the art, the receive antenna, the transmit antenna, modulation and demodulation of the signal Modulator- demodulator for signal processing and output or as input circuit components such as a processor and input/output terminals, voltage regulator (not shown in the figure).

Communication modules (111) are provided in multiple and ZigBee communication module, Bluetooth 4.1 communication module, Bluetooth 4.2 communication module, Bluetooth 5.0 communication module, Lora communication module, WiFi communication module is selected.

The communication frequency mentioned here is the communication frequency carried out by radio wave. represents the frequency value or frequency band. For example; 315MHz, 433MHz, 2.4- 2.485GHz etc. as. The communication protocol is also the rules by which the communication is carried out. represents the series. For example; Bluetooth, ZigBee, BLE, Lora, SimpliciTI etc. as.

The gateway 100 also represents a processing unit 120 associated with the communication unit 110. contains. Said processor unit (120) is a source of communication modules (111). receives the signals sent by the device (211), and allows the source device (211) to transmit the signal. communication protocol and communication frequency used by a target device (212) signals to the target device (212d) via a communication module (111) according to is sending.

The processor unit 120 is associated with a memory unit 130. memory unit (130) processor unit It contains command lines executed by (120). Memory unit 130, communication protocols contain profiles. The processor unit (120) is the source device (211) It detects the communication protocol it uses, parses the sent data and It ensures that the decomposed data is sent to the source device (211) in a suitable protocol.

The memory unit 130 consists of a memory for permanent storage of data and a temporary It may include a memory that allows it to be stored, or suitable combinations thereof.

The processor unit 120 is a microprocessor.

Devices 210 are configured to send and receive radio waves. is configured. Some of the devices (210) are related to physical changes in the environment, will detect changes in a machine or equipment and generate a corresponding signal may include sensors (not shown in the figure). Said sensors, heat meters, moisture meter, tachometer etc. can happen. It can connect to gateway 100, a command when they receive it, they are sent to the gateway (100) on their own communication frequencies and on their own communication frequencies. can send the signal they produce in their protocols.

Devices 210 are mobile phones, tablets, smartwatches, etc. in the client role. general as purpose computers. As mentioned above, a sensor containing a can request information from the device (210), and the device containing the sensor (210) can also request information from the device (210). It can send the signal it produces based on the response measurements. Gateway (100) all this It mediates communication involving command or signal transmission.

Referring to Figure 2, in a possible configuration, the subject of the invention communication network (10) is a can be connected to the communication network (450). Gateway 100, in this possible configuration to the communication network (450) via a WiFi module in the communication unit (110) is connecting. Said communication network 450 is a wide area network, in particular the Internet.

At least one server (400) can also be connected to the communication network (450) mentioned. Server (400) is also a general purpose computer and includes an operating system. Server (400), the network of devices (210) in the client role connecting directly to the wide area network. It provides communication with its gateways (100). The server 400 also contains the sensor. with labels denoting the device (210) from which the 'measurement values were taken' taken from the devices (210) and stored in a database (not shown in the figure) by associating can provide.

In one possible embodiment, a router 300 is connected to the communication network of gateways 100. (450) is provided to connect.

In a possible embodiment, the communication modules (111) are connected to the communication unit (110) modularly. can be attached and removed. Referring to Figure 4, each communication module (111), a device containing electronic components not shown as mentioned above. contains the electronic circuit. Each communication module (111) is connected by electronic circuit. a connected connector (113). Connector (113) electronic It opens out from the body of the module. External data of the communication module (111) enables it to transfer or receive data from outside.

The communication unit (110) consists of a plurality of units for placing the communication modules (111). contains the module slot (112). Each module slot (112) is associated with the processor unit (120). each includes a co-connector (114). Connection of communication modules (111) element (113) is connected to co-connector element (114) in a detachable manner.

Thus, it is possible to change the communication modules (111) according to the need.

In this possible embodiment, the processing unit 120 is the one placed in the communication unit 110. detects the credential of the communication module (111) and uses this credential. detecting the communication frequency and communication protocol of the communication module (111) is doing. The communication module (111) transmits a signal expressing the identity information to the processor unit. (120) can be sent.

The subject of the invention communication network (10) described in detail above, is as shown in the figure. An exemplary configuration works as follows: The communication network (10) is a ship. is provided on. A server 400 and a gateway 100 are provided. a first device 210a is associated with an onboard machine, includes a heat sensor and is ZigBee It communicates with a communication protocol. A second device 210b is also an onboard It is a tablet computer in the client role used by the staff. A third device (210c) It communicates on the 868Mhz communication frequency and is sent by another ship's personnel. it's a smart watch. If a fourth device (210d) also communicates in the Bluetooth communication protocol and a mobile (smart) phone carried by the crew of another ship. Second device (210b), is coming out. The first device (210a) is constantly connected to the gateway (100). Gateway modules communicating at communication frequencies) in different protocols (Bluetooth, ZigBee, Lora, SimpliciTI) by sending a signal to the identification number of the surrounding devices (210a). inquires.

The first device (210a) receives the query from the gateway 100 at the 2.4GHz communication frequency. Reply by connecting with ZigBee protocol over the communication module (111) gives. The third device (2100) communicates to the query at 868MHz communication frequency. It responds by connecting with the Lora protocol over the communication module (111).

The fourth device (210d) uses the Bluetooth 4.2 protocol at 2.4Ghz communication frequency. It responds by connecting using Second device 210b, third device 2100, and When the fourth device 210d leaves the range of the gateway 100 and re-enters, the above It is reconnected to the gateway (100) like Thus, a connected device 210 can be can send data to the device (210). The server 400, as needed, can retrieve the measurement data. can save. Devices 210 in the client role can also request information, (400) can access data.

A software is running on the server 400. Devices 210 are listed in the software.

Information that devices 210 have is also kept in a table.

A common set of commands to be used all over the communication network (10) are available. This instruction set is used on both server (400) and gateway (100) programmed on it. This instruction set is part of the common network code. Sample As a network protocol, the following command/response pairs are defined: THERMOMETER_SOR YES/NO DEVICE_SOR, YES/NO LOCATION_ASK, According to these definitions; When the gateway (100) THERMOMETER_SOR command is received, it If there is a first device 210a, the gateway 100 will respond VAR. If not, NONE will give the answer. The first device (210a) with a heat detector on it will command the ISI_SOR command. When it receives it, it will send back the heat it read as an answer.

In this example case, the steps performed by the devices 210 and during these steps The information conveyed is as follows: - connecting the server (400) to the router (300) via WiFi, - connecting the gateway (100) to the router (300) via WiFi, - each module and protocol of the gateway (100) above the “IDl_SOYLE” broadcast by repeating it every 5 seconds, - the second device (210b) enters the network communication range and via WiFi connecting to the router (300), - ZigBee by sending the ID to the question from the gateway (100) of the first device (210a) With the communication protocol and 2.4GHz communication frequency, it responds and the network connecting to the gateway, - third device (2100) coming into network range, to question from gateway (100) - fourth device (210d) entering network range and incoming from gateway (100) connecting to the gateway (100) via Bluetooth 4.2 by sending an ID to the question, - the first device (210a) to give heat information to the gateway (100) every 30 seconds start and the following information is transferred: DEVICE FIRST GATEWAY HEAT_READY, GATEWAY FIRST DEVICE OK - gateway (100) keeps a copy of the job information in its memory and over WiFi sending it to the server (400) connected to the router (300), - temperature information of the third device (210c) from the user interface by the user Gateway (100) 868 to display ambient temperature when it receives a command to display Communication with Lora communication protocol at MHZ communication frequency, During this communication, the following information is transferred: THIRD DEVICE GATEWAY THERMOMETER_SOR THERE IS THE THIRD DEVICE OF THE GATEWAY GATEWAY THIRD DEVICE - an application running on the fourth device (210d) regulates the ambient temperature show as - 2.4GHz Bluetooth every 2 minutes with the gateway (100) to which the device (210) is connected 4.2 to communicate with the communication protocol and to provide the transfer of the following information, FOURTH DEVICE GATEWAY THERMOMETER_SOR THE GATEWAY HAS THE FOURTH DEVICE FOURTH DEVICE GATEWAY ISI_SOR GATEWAY FOURTH DEVICE - second device (210b) via router (300) to server (400) via WiFi connect and set its value on the server (400) as an MQTT subscriber. to use, - when transmitted from gateway (100) to server (400) this information distribution to all subscribers and thus the same on the application on the second device (210b). making it appear instantly, - instantaneously according to an input from the user interface of the third device (210c) where the fourth device (210d) wants to see the location information. the third Device (210c), asking the gateway (100) whether the fourth device (210d) is in the network, the network from the gateway (, transmitting the response from the fourth device (210d) to the third device (2100), Communication is different. It has been done in frequencies and protocols, and it is done by transferring water information. is taking place: THIRD GATEWAY DEVICE_SOR, 868MHZ, Lora DEVICE AG GATE VOLTAGE HAVE 868MHZ, Lora THIRD GATEWAY DEVICE_SOR, 868MHZ, Lora DEVICE GATEWAY FOURTH LOCATION_SOR Bluetooth 4.2 FOURTH GATEWAY Bluetooth 4.2 AG CECIDI THIRD 868MHZ, Lora Thus, communication within the ship in different protocols and different from each other. It is possible for devices (210) capable of communicating in protocols (210) to communicate. is being built. With the facilitation of communication and the increase of information flow, the accidents are partially prevention is provided.

In a possible configuration as in Figure 4, multiple gateways (100( They can send data to each other via Thus, a gateway connected to 100 device (210) can communicate with another device (210) connected to another gateway (100), It can send commands and request data. A first device 210a in the client role data to another device (210) by connecting directly to the server (400) or gateway (100) and request data from these devices (210).

In a possible configuration of the gateway (100), wired communication will be made, especially RS232. It contains a communication module (111) that will make serial communication in accordance with the cable.

In a possible embodiment, the first communication protocol and the second communication protocol are the same; the first communication frequency and the second communication frequency are different. In another configuration If the first communication frequency and the second communication frequency are the same, the first communication frequency is the same. protocol and second communication protocol are different. So different like Bluetooth versions with different protocols by communicating in the same frequency band. It is also ensured that devices using these formats can communicate with each other.

The scope of protection of the invention is stated in the attached claims and this detailed for exemplification purposes, it cannot be limited to what is told. Because a technical expert similar in the light of what has been explained above without departing from the main theme of the invention. It is clear that structuring can occur.

REFERENCE NUMBERS IN THE FOLLOWING communication network 100 Ag gateway 110 Communication unit 111 Communication module 111b Second communication module 112 Module slot 113 Connector 114 Co-connector 120 Processor units 130 Memory units 210 Devices 211 Source device 212 Target device 210a First device 210b Second device 2100 Third device 210d fourth device 300 Router 400 Servers 450 Communication network

Claims (1)

REQUESTS A device 210 comprising at least one source device 211) configured to communicate in a first communication protocol on a first communication frequency and at least one target device 212 configured to communicate in a second communication protocol on a second communication frequency It is a gateway (100) to enable the devices (210) in its group to communicate, and its feature is; a communication unit (110) having a first communication module (111a) operating at said first communication frequency and at least one second communication module (111b) operating at said second communication frequency; comprising a processing unit (120) associated with said communication module (111) for data exchange; said processor unit (120) will detect a first signal in the first communication protocol received from said source device (211) via the first communication module (111a) and will ensure that the first signal is sent via the second communication module (111b) to a target device (212) in the second communication protocol it is configured as such. It is a gateway (100) according to claim 1, and its feature is; the first communication modules (1113) and the second communication modules (111b) are selected among Bluetooth 4.1 communication module, Bluetooth 4.2 communication module, Bluetooth 5.0 communication module, 315MHz communication module, 433MHz communication module, 868MHz communication module, Sub 1 Ghz communication module. It is a gateway (100) according to claim 1 and its feature is; including a server (400); the communication unit (110) includes a WiFi communication module; The processing unit (120) is configured to ensure that the first signal received from the source device (211) is also sent to the server (400) via the WiFi communication module. It is a gateway (100) according to claim 1 and its feature is; the communication unit (110) includes at least two module slots (112) for connecting modules. It is a gateway (100) according to claim 1 and its feature is; module slot (112) and communication modules (111) are provided in a form compatible with each other. It is a gateway (100) according to claim 1 and its feature is; the communication modules (111) comprise at least one connector (113) connected with the electronic circuit that enables them to send and receive radio waves; the module slot (112) also includes at least one co-connector (114) associated with the processor unit (120); The communication module (111) and the module slot (112) are positioned in the module slot (112) of the communication module (111) from a first position where the connector (113) contacts the co-connector (114) and from the co-connector (114) of the connector (113). ) is configured to allow it to take a second position where it stands apart. It is a gateway (100) according to claim 1 and its feature is; the communication module (111) is configured to generate an identification signal after the connector (113) contacts the co-connector (114), and the processor unit 120 will receive the identification signal and the communication module () connected according to the identification signal 111) is configured to detect the communication protocol and communication frequency. A communication network (10) comprising at least one server (400) that provides data exchange between the gateways (100) and said gateways (100) as in a multiple number of claims 1. It is a communication network (10) according to claim 9 and its feature is; each gateway (100) includes at least one router (300) for connecting to a communication network (450) to which the server (400) is connected. It is a communication network (10) according to claim 9 and its feature is; Each gateway (100) includes Bluetooth 4.1 communication module, Bluetooth 4.2 communication module, Bluetooth 5.0 communication module, 315MHz communication module, 433MHz communication module, 868MHz communication module, Sub 1 Ghz communication module selected among (111) according to the needs. .