KR20180050841A - Wireless communication method of metering system - Google Patents

Abstract

The present invention provides a method and a system of a wireless communication of a metering system, which are more efficient. A metering modem of the metering system of the present invention comprises a wireless communication part and a wired communication part. The wireless communication part intermittently wakes up from a sleep mode and switches to a communication mode. The wired communication part receives metering information from a metering device. The wireless communication part transmits the metering information to an external device. The wireless communication part checks whether a response of the external device with respect to the transmitted metering information is received. The wireless communication part switches to the sleep mode after checking whether the response of the external device is received. The response of the external device with respect to the transmitted metering information includes a command to be processed by the metering device or the metering modem.

Description

[0001] The present invention relates to a wireless communication method of a metering system,

The present invention relates to a wireless communication method of a metering system that reduces battery consumption of a meter modem.

Consumers' meters, such as gas meters and water meters, typically operate on batteries without an external power source, which prevents consumers from paying for electricity for the electricity consumed by the meter and prevents the consumer from unplugging the meter , And to reduce the cost of installing the meter. However, in the conventional meter communication system, the meter has to keep the wireless communication reception standby state in order to receive a command from the server. In such a standby state of wireless communication, the power consumption of the meter is extremely short and the battery life is shortened. Therefore, a more efficient meter wireless communication system is required.

The present invention provides a wireless communication method and system of a more efficient metering system.

A battery-operated meter modem according to an embodiment of the present invention includes a wireless communication unit and a wired communication unit, wherein the wireless communication unit intermittently wakes from a sleep mode and switches to a communication mode, Wherein the wireless communication unit transmits the metering information to an external device and the wireless communication unit confirms whether or not the response of the external device to the metering information transmitted is received, And then switches to the sleep mode after confirming whether or not it has been received.

In one embodiment, the response of the external device to the transmitted metering information comprises an instruction to be processed by the meter or the meter modem.

In one embodiment, the wireless communication unit may be configured to regard the command as an ACK for the metering information when the response of the received external apparatus includes the command word and does not include an ACK for the metering information. .

In one embodiment, if the response of the external device received comprises an instruction to be processed by the meter, the wired communication unit transmits the received instruction word to the meter before switching to the sleep mode, Receives the processing result of the received command word from the meter, and the wireless communication unit transmits the processing result of the received command word to the external apparatus.

In one embodiment, the meter modem further comprises a controller, wherein if the response of the external device received comprises an instruction to be processed by the meter modem, before switching to the sleep mode, And the wireless communication unit transmits the processing result of the received command word to the external apparatus.

In one embodiment, the wired communication unit receives a wake-up signal from the meter, the wired communication unit wakes up from the sleep mode according to the wake-up signal and switches to the communication mode, and the wired communication unit sends a metering information request And transmits the data.

In one embodiment, the command includes at least one of setting the metering information transmission time, setting the number of digits to be sent, setting the number of times of communication error retry, and requesting transmission of battery use days.

In one embodiment, the instruction includes 8-bit quantization information transmit digits setting information, and the upper 4 bits of the quantum information transmit digits setting information are set to be the integer number of digits of the transmit weighing information, And the 4 bits indicate the digits of the fractional part of the transmission weighing information by BCD codes.

In one embodiment, the battery use days transmission request includes 4 bytes of request date information, the upper 2 bytes of the request date information is year, the next 1 byte is month, and the next 1 byte is day, respectively, in BCD codes And the response data for the battery use days transmission request includes the number of days from the battery replacement date to the request date.

In one embodiment, when the response of the external device to the transmitted metering information is not received, when the wireless communication unit switches from the sleep mode to the communication mode next after the wireless communication unit switches to the sleep mode And transmits the metering information newly received from the meter together with the metering information that does not receive the response to the external device.

In one embodiment, switching from the sleep mode to the communication mode is periodically performed according to a predetermined time interval, and when a predetermined state change occurs in the meter, the wired communication unit is not connected to the predetermined time interval The wireless communication unit awakes from the sleep mode according to the wake-up signal and switches to the communication mode, and the wired communication unit receives the state information of the meter and the latest weighing information from the meter And the wireless communication unit transmits the state information of the meter and the latest metering information to the external device.

In one embodiment, switching from the sleep mode to the communication mode is performed periodically according to a predetermined time interval, and when the meter has a user input for immediate processing of the command, the wired communication unit is not connected to the predetermined time interval The wireless communication unit wakes up from the sleep mode according to the wake-up signal to switch to the communication mode, and the wired communication unit receives the latest metering information from the meter, and the wireless communication unit And the wireless communication unit receives a command to be processed by the meter or the meter modem in response to the latest metering information from the external apparatus.

In one embodiment, switching from the sleep mode to the communication mode is periodically performed according to a predetermined time interval, and when a user input receives a user input of a command processing immediate processing, Wherein the wired communication unit transmits a recent metering information request to the metering unit, the wired communication unit receives recent metering information from the metering unit, and the wireless communication unit notifies the latest metering information And the wireless communication unit receives a command to be processed by the meter or the meter modem in response to the latest metering information from the external apparatus.

A metering repeater according to an embodiment of the present invention includes a communication unit and a storage unit, wherein the communication unit receives a command to be processed by a meter or a meter modem from the metering server, the storage unit stores the command word, Characterized in that the metering information is wirelessly received from the meter modem intermittently and the communication section transmits the metering information to the metering server and the communication section wirelessly transmits the stored command in response to the metering information to the meter modem do.

In one embodiment, the communication unit does not separately transmit an ACK for the metering information when the stored command is transmitted to the meter modem in response to the metering information.

In one embodiment, the step of wirelessly receiving the metering information is performed periodically according to a predetermined time interval, and when a predetermined state change occurs in the meter, the communication unit immediately notifies the meter The state information of the meter and the latest metering information are wirelessly received from the modem, and the communication unit transmits the state information of the meter and the latest metering information to the metering server.

In one embodiment, the wireless reception of the metering information is performed periodically according to a predetermined time interval, and when there is an instruction immediate processing user input to the meter or meter modem, the communication section is activated regardless of the predetermined time interval Immediately receives the latest metering information from the meter modem, and the communication unit transmits the latest metering information to the metering server, and the communication unit wirelessly transmits the stored command in response to the latest metering information to the meter modem .

The weighing server according to an embodiment of the present invention includes an instruction setting unit and a communication unit, and the instruction setting unit sets and stores a command to be processed by the meter or the meter modem, and the communication unit intermittently weighs And the communication unit wirelessly transmits the stored instruction word to the meter modem in response to the metering information.

In one embodiment, the step of wirelessly receiving the metering information is performed periodically according to a predetermined time interval, and when a predetermined state change occurs in the meter, the communication unit immediately notifies the meter And the status information of the meter and the latest metering information are wirelessly received from the modem.

In one embodiment, the wireless reception of the metering information is performed periodically according to a predetermined time interval, and when there is an instruction immediate processing user input to the meter or meter modem, the communication section is activated regardless of the predetermined time interval Immediately receives the latest metering information from the meter modem immediately, and the communication unit wirelessly transmits the stored command word to the meter modem in response to the latest metering information.

The weighing server according to an embodiment of the present invention includes an instruction setting unit and a communication unit and receives intermittently the weighing information from a weighing relay in which the communication unit wirelessly communicates with the weighing device modem, And the communication unit transmits the set command to the metering repeater, and the communication unit receives the processing result for the command when receiving the first metering information from the metering repeater after transmitting the command word .

The weighing server according to an embodiment of the present invention includes an instruction setting unit and a communication unit and receives intermittently the weighing information from a weighing relay in which the communication unit wirelessly communicates with the weighing device modem, And the communication unit transmits the set command to the metering repeater, and the command transmitted to the metering repeater is reflected in the second metering information after the command is transmitted to the metering repeater .

In one embodiment, receiving the metering information is performed periodically according to a predetermined time interval, wherein the command is a change request of a time interval for receiving the metering information, and the first time after receiving the command, The weighing information is received according to the time interval before the change is made and the weighing information received secondly after the command is transmitted is received according to the time interval after the change.

In one embodiment, the receiving of the metering information is performed periodically according to a predetermined time interval, and when a predetermined state change occurs in the meter, the communication unit immediately transmits the metering information to the metering repeater And state information of the meter and recent metering information.

In one embodiment, if there is an instruction immediate processing user input to the meter or meter modem after sending the instruction to the metering repeater and then before receiving the metering information, And the metering information received first after receiving the latest metering information from the repeater is received according to the time interval after the change.

A meter according to an embodiment of the present invention periodically transmits a wake-up signal to a meter modem at a predetermined time interval, receives a metering information request from the meter modem, transmits metering information to the meter modem Immediately transmit a wake-up signal to the meter modem irrespective of the predetermined time interval when a predetermined state change occurs in the meter, receive a metering information request from the meter modem, And the latest metering information.

A meter according to an embodiment of the present invention periodically transmits a wake-up signal to a meter modem at a predetermined time interval, receives a metering information request from the meter modem, transmits metering information to the meter modem Immediately transmitting a wake-up signal to the meter modem immediately upon receipt of an instruction prompt user input, irrespective of the predetermined time interval, transmitting the latest metering information of the meter to the meter modem, And the meter receives a command to be processed.

A communication method of a battery-operated meter modem according to an embodiment of the present invention includes a step of intermittently switching from a sleep mode to a communication mode by a wireless communication unit, a step in which a wired communication unit receives metering information from a meter, A step of transmitting the metering information to an external device, a step of confirming whether or not a response of the external device to the metering information transmitted by the wireless communication unit is received, and a step of confirming whether or not the wireless communication unit And switching to the sleep mode.

A communication method of a metering repeater according to an embodiment of the present invention includes a step in which a communication unit receives a command to be processed by a meter or a meter modem from a metering server, a step in which a storage unit stores the command word, , The communication unit transmitting the metering information to the metering server, and the communication unit wirelessly transmitting the stored command in response to the metering information to the meter modem .

A communication method of a weighing server according to an embodiment of the present invention includes a step of setting and storing a command to be processed by a command setting section meter or a meter modem, a communication section wirelessly receiving metering information from the meter modem intermittently, And the communication unit wirelessly transmitting the stored instruction word to the meter modem in response to the metering information.

A communication method of a weighing server according to an embodiment of the present invention includes intermittently receiving metering information from a metering repeater in which a communication unit wirelessly communicates with a meter modem, setting a command to be sent by the command setting unit to the meter modem, And the communication unit transmits the set command to the metering relay unit. The communication unit receives the processing result of the command when receiving the first metering information from the metering repeater after transmitting the command word .

A communication method of a weighing server according to an embodiment of the present invention includes intermittently receiving metering information from a metering repeater in which a communication unit wirelessly communicates with a meter modem, setting a command to be sent by the command setting unit to the meter modem, And the communication unit transmits the set command to the metering repeater, wherein the command transmitted to the metering repeater is reflected in a second received metering information after the command is transmitted to the metering repeater .

A communication method of a meter according to an embodiment of the present invention is characterized in that the communication unit periodically transmits a wake-up signal to the meter modem at a predetermined time interval, receives a metering information request from the meter modem, Transmitting a metering information to the meter modem; and transmitting a wake-up signal to the meter modem immediately upon receipt of an instruction prompt processing user input, regardless of the predetermined time interval, and transmitting the latest metering information of the meter to the meter modem And receiving a command to be processed by the meter from the meter modem.

The present invention includes a computer program stored on a medium for executing in a computer a method according to an embodiment of the present invention.

1 is a view schematically showing a configuration of a metering system according to an embodiment of the present invention.
2 is a flow chart illustrating a method of operating a meter modem in a metering system according to an embodiment of the present invention.
3 is a sequence diagram illustrating a flow of a communication method of a metering system according to an embodiment of the present invention.
4 is a sequence diagram showing a flow of a communication method in a case where a meter is processing an instruction in a metering system according to an embodiment of the present invention.
5 is a sequence diagram illustrating a flow of a communication method when a meter modem processes an instruction in a metering system according to an embodiment of the present invention.
6 is a sequence diagram showing a flow of a communication method in a case where a meter modem directly communicates with a metering server in a metering system according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to clarify the technical idea of the present invention. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram of a computer system according to an embodiment of the present invention; Fig. For convenience of explanation, the apparatus and method are described together when necessary.

1 is a diagram schematically illustrating a configuration of a meter modem wireless communication system 10 according to an embodiment of the present invention. 1, a metering system 10 according to an embodiment of the present invention includes a meter 100, a meter modem 110 that communicates wiredly with the meter 100, a plurality of meter modem 110, And a metering server 130 that communicates wired or wirelessly with a plurality of metering repeaters 120 or that wirelessly communicates directly with the meter modem 110. The meter modem 110 includes a wireless communication unit 111, a wired communication unit 112 and a control unit 113. The weighing relay 120 includes a communication unit 121 and a storage unit 122, 130 includes a communication unit 131 and a command setting unit 132. The meter modem 110 is not connected to an external power source and operates as a battery. The meter 100 and the meter modem 110 may be integrally implemented according to the embodiment.

The wired communication unit 112 of the meter modem 110 can communicate with the meter 100 using the RS-232C standard. The communication speed and the data structure can be defined as shown in Table 1.

The wireless communication unit 111 of the meter modem 110 can exchange data with external devices such as the measurement relay apparatus 120 and the weighing server 130 in a data frame structure as shown in Table 2. [

Here, the Meter ID field is a unique number of the meter, for example, the CTN of the LTE-M network. The STX field indicates the start of a data frame, and may be defined as one byte of 0xF7. The DEVICE ID field following the STX field indicates the type of the slave device and is composed of 1 byte and can be defined as shown in Table 3.

The COMMAND TYPE field of Table 2 indicates the type of the data frame and may be composed of one byte. The seventh bit of the COMMAND TYPE field indicates the data transmission direction. The data transmitted from the metering server 130 to the meter modem 110 sets the seventh bit to 0 (Bit7 = 0) The data to be transmitted to the weighing server 130 can be set to the seventh bit (Bit7 = 1). If the seventh bit of the COMMAND TYPE field is 0 (Bit7 = 0), the meter modem 110 processes the data if the DEVICE ID indicates itself, otherwise ignores the data. Depending on the embodiment, additional SUB IDs may be used to distinguish the child devices. The data frame with the seventh bit of the COMMAND TYPE field of 1 (Bit7 = 1) is the data frame that the slave device sends to the server, so other slave devices ignore it.

The LENGTH field indicates the length of the DATA N field. If the LENGTH field is 0, there is no DATA, and the BCC1 and BCC2 fields are immediately followed. The BCC1 and BCC2 fields are used to verify the received data. The BCC1 field has a value obtained by XORing the value from the STX field to the BCC1 field, and the BCC2 field has a value obtained by performing a SUM on the values from the STX field to the BCC1 field. The meter modem 110 verifies the BCC field of the received data frame, the verified data frame sends an ACK to execute the command and may not respond if the verification fails. The total length of the data frame is LENGTH + 6.

FIG. 2 is a flowchart illustrating a method of operating a meter modem 110 according to an embodiment of the present invention. Referring to FIG. 2, the wireless communication unit 111 of the meter modem 110 intermittently wakes from the sleep mode and switches to the communication mode (S201). The wireless communication unit 111 can periodically switch to the communication mode according to a predetermined time interval and switch to the communication mode at a predetermined time according to other predetermined conditions. Depending on the embodiment, the meter modem 110 may receive a wakeup signal from an external device such as the meter 100 and switch to a communication mode, or may switch to a communication mode by itself, such as by a timer, provided on the meter modem 110 have.

The wired communication unit 112 of the meter modem 110 receives the metering information from the meter 100 (S202). The weighing information can be represented by a BCD (binary-coded decimal) code, and can include cumulative flow rate (integrated value) and current flow rate (instantaneous value). The wireless communication unit 111 wirelessly transmits the metering information received from the meter 100 to an external device (S203). The external device may be a metering relay 120 or a metering server 130.

The wireless communication unit 111 confirms whether the response of the external device to the transmitted metering information is received (S204). The wireless communication unit 111 confirming whether or not to receive the response of the external apparatus switches to the sleep mode (S205). Here, in the sleep mode, in order to lower battery consumption of the meter modem 110, the reception standby state of the wireless communication unit is deactivated, and other functions except the functions (wake up signal receiving unit, wake up timer, etc.) State.

 3 is a sequence diagram showing a flow of a communication method of the metering system 10 according to an embodiment of the present invention. 3, the command setting unit 132 of the metering server 130 sets a command to be sent to the meter modem 110, and the communication unit 131 transmits a command to the metering repeater 120 (301). Here, the command is a command to be processed by the meter 100 or the meter modem 110. The command is a command for setting the weighing information transmission time, setting the number of digits to be transmitted, setting the number of times of communication error retry, , Or a battery installation date transmission request. According to the embodiment, the instruction may be input from the user or set according to a predetermined condition. Table 4 is an example of the COMMAND TYPE and DATA N fields for the command. The columns 2 and 3 of Table 4 are the COMMAND TYPE and DATA N fields of the command transmitted from the weighing server 130 to the meter modem 110 and the columns 4 and 5 are the COMMAND TYPE of the response of the meter modem 110 Field and a DATA N field.

Referring to Table 4, the DATA N field can be composed of a BCD code. For example, if the number of digits in the cumulative flow has a value of 0x53, the first four bits of 5 means the integer part of the cumulative flow, and the second four bits of 3 means the fractional part of the cumulative flow. The meter 100 receiving the data request can transfer the cumulative flow rate of 12345.678 m2 of 8 digits including 5 digits of the integer part and 3 digits of the decimal part according to the specified digits to the external device by expressing 4 bytes as 0x12345678. If the current flow rate has a value of 0x33, the first 4 bits of 3 means the integer part of the current flow rate, and the second 4 bits of 3 means the fraction of the current flow rate. The meter 100 receiving the data request can transmit the current flow rate of 123.456m 2 / h having 6 digits including 3 digits of the integer part and 3 digits of the decimal part as 3 bytes as 0x123456 to the external device.

The cumulative flow amount in Table 4, the current 2 bytes following the flow rate data means the pressure of the meter 100, and can be composed of BCD codes such as cumulative flow rate and current flow rate. For example, when the pressure of the meter 100 is 99.99 kPa, it can be expressed as 0x9999 and transmitted to an external device.

Status, which is the next three bytes of the pressure data, can be defined as the state of the meter 100, as shown in Table 5. Each bit can be set to bit 0 if its state is normal, or to bit 1 if a block or error occurs.

Bit 7 in Table 5 indicates the battery state of the meter modem 110. When bit 7 is 0, it means battery normal, and bit 7 is 1, which means battery is insufficient.

The metering repeater 120 that receives the command from the metering server 130 stores the command through the storage unit 122 without immediately transmitting the command to the meter modem 110. [ The meter modem 110 awakes from the sleep mode at a predetermined time and switches to a communication mode capable of wireless communication (303). The meter 100 transmits the metering information to the wired communication unit 112 of the meter modem 110 (304). The meter modem 110 transmits the metering information to the metering repeater 120 through the wireless communication unit 111 (305). The weighing relay 120 transmits the received weighing information to the weighing server 130 in a wired or wireless manner (306).

The communication unit 121 of the metering repeater 120 transmits the commands stored in the storage unit 122 together with the metering information to the meter modem 110 in response to the metering information (307). In one embodiment, the metering repeater 120 may only send commands without sending an ACK to the meter modem 110 if the stored instructions exist, in which case the meter modem 110 may send an instruction to the metering information It can be regarded as an ACK. The wireless communication unit 111 of the meter modem 110 which has confirmed the reception of the response of the measurement relay apparatus 120 switches to the sleep mode and terminates communication with the outside (308).

As described above, according to the present invention, the meter modem 110 wakes up from the sleep mode only when the meter information is not intermittently received in the wireless communication reception standby state, and the meter relay 120 receives the instruction received from the metering server 130 To the meter modem 110 without sending it to the meter modem 110 and then transmits a command that was stored as a response when the meter modem 110 wakes up from the sleep mode and transmits the metering information, thereby reducing the battery consumption of the meter modem 110 Can be obtained.

The meter modem 110 may retransmit the metering information if it fails to receive a response to the metering information within a predetermined time. According to the embodiment, the number of retransmissions of the wireless communication unit 111 can be from the basic 2 to the maximum of 255 times, but it is preferable to limit the number of retransmissions to 8 in order to reduce the battery consumption of the meter modem 110.

If the meter modem 110 can not receive a response, it can switch to the sleep mode. If the meter modem 110 wakes up from the sleep mode and then switches to the communication mode, the meter modem 110 can transmit the previous metering information, have. If the response is not received, it may include a case where no response is received within a predetermined time, or a case where a response is not received even if a retransmission is performed by a predetermined number of times.

According to the present invention, instead of reducing the battery consumption of the meter modem 110, the instructions that the meter 100 or the meter modem 110 should process are not processed immediately but are processed after the next weighing information transmission. In order to compensate for this phenomenon, a user input unit (not shown) may be provided in the meter 100 or the meter modem 110 to transmit the latest metering information to the metering repeater 120 immediately when there is an instruction immediate processing input from the user It is possible to receive and process the command from the weighing relay 120. The user input portion receiving the instruction immediate processing input may be in the form of a button. That is, the user can promptly receive and process the command stored in the metering relay 120 by pressing the button when the command is to be processed immediately.

The meter 100 sends a wake-up signal to the meter modem 110 immediately upon receipt of the instruction immediate processing user input and the meter modem 110 transmits a wake-up signal to the meter modem 110, Wakes up from the sleep mode according to the wake up signal and switches to the communication mode. The meter 100 transmits metering information to the metering server 130 via the metering modem 110 and the metering repeater 120. The metering server 110 receives the metering information from the metering server 110, The metering repeater 120 that has received the metering information recently transmits the stored command in response to the metering information to the meter modem 110 together with the ACK or alone. The meter modem 110 or the meter 100 receives and processes instructions.

When the user input for the instruction immediate processing input is provided to the meter modem 110, the meter modem 110 immediately wakes up from the sleep mode and switches to the communication mode upon receipt of the instruction immediate processing user input, And sends a metric information request. The meter 100 transmits metering information to the metering server 130 via the metering modem 110 and the metering repeater 120. The metering server 110 receives the metering information from the metering server 110, The metering repeater 120 that has received the metering information recently transmits the stored command in response to the metering information to the meter modem 110 together with the ACK or alone. The meter modem 110 or the meter 100 receives and processes instructions.

In one embodiment, when a change occurs in a particular state (e.g., bits 2, 3, 8-14, 16-18) of states as shown in Table 5 in the meter 100, the meter 100 The wake up signal can be immediately sent to the wired communication unit 112 of the meter modem 110 regardless of the predetermined time interval. The meter modem 110 receiving the wakeup signal awakes from the sleep mode and switches to the communication mode. The wired communication unit 112 receives the state information of the meter 100 and the latest meter information from the meter 100. The wireless communication unit 111 transmits the received status information and the latest metering information to the communication unit 131 of the metering server 130. The communication unit 121 of the metering repeater 120 measures the received status information and the latest metering information To the communication unit 131 of the server 130. The meter modem 110, which has completed communication, switches to the sleep mode and terminates communication with the outside. Even in this case, when the state change occurs in the meter 100, it is possible to obtain the effect of promptly receiving and processing the command stored in the weighing relay 120.

FIG. 4 is a sequence diagram showing a flow of a communication method when the meter 100 processes an instruction in the metering system 10 according to an embodiment of the present invention. 4, the communication unit 131 of the metering server 130 transmits a command to be processed by the meter 100 (401), and the storage unit 122 of the metering repeater 120 stores the command (402) ). The meter 100 intermittently transmits a wakeup signal to the wired communication unit 112 of the meter modem 110 and the meter modem 110 transmits a wakeup signal to the wired communication unit 112 of the meter modem 110 in accordance with the wake up signal received by the wired communication unit 112, To the communication mode (404). The wake-up signal may be transmitted periodically at a predetermined time interval or at a predetermined time according to a predetermined condition.

The wired communication unit 112 of the meter modem 110 requests metering information from the meter (405). Where the metering information request may be an explicit data transmission request or an ACK indicating that the meter modem 110 has switched to the communication mode in accordance with the wake up signal. The meter 100 receiving the metering information request transmits the metering information to the meter modem 110 and is transmitted to the metering server 130 through the metering repeater 120 (406, 407, 408).

The communication unit 121 of the measurement relay apparatus 120 transmits the command stored in the storage unit 122 together with the ACK to the wireless communication unit 111 of the meter modem 110 in response to the measurement information (409). In one embodiment, if there is a stored instruction, only the instruction may be transmitted without transmitting the ACK together, and the wireless communication unit 111 of the meter modem 110 may regard the instruction as an ACK in this case. The wired communication unit 112 of the meter modem 110 transmits the received command to the meter 100 (410). Here, the command is an instruction to be processed by the meter, for example, it may be an instruction to change the interval of the information transmission time.

In one embodiment, the value of the COMMAND TYPE field of the metering information transmission time interval change command data frame of the meter 100 is 0x50, and the value of the DATA N field may be the time in minutes expressed in BCD codes. For example, if the value of the DATA N field is 0x0060, the metering information transmission of the meter 100 is set to be once every hour. 0x0010 is set once every 10 minutes, 0x0120 is set every 2 hours, Once per day. If the value of the DATA N field is 0x0000, it may be to request the currently set value.

The meter 100 receiving the command processes the command and transmits the processing result to the wired communication unit 112 of the meter modem 110 (411). The wireless communication unit 111 of the meter modem 110 transmits the processing result of the command to the communication unit 121 of the measuring relay apparatus 120 and the communication unit 121 of the measuring relay apparatus 120 transmits the received command processing result To the communication unit 131 of the weighing server 130 in step 413 and receives the ACK and transmits it to the wireless communication unit 111 of the meter modem 110 in steps 414 and 415.

Thus, when the weighing server 130 transmits a command to the weighing machine 100, the weighing machine 100 transmits the instruction information to the weighing machine 120 via the weighing machine modem 110, The metering server 130 can not receive the processing result of the command immediately and receives the processing result of the command only when receiving the metering information of one time. When the instruction transmitted by the weighing server 130 is a command related to the transmission of the weighing information, the order is not reflected in the first weighing information received after the weighing server 130 transmits the instruction to the weighing apparatus 100, The instruction is reflected in the metric information received by the user.

For example, if the weighing server 130 transmits the weighing information transmission time interval change command so that the weighing server 130 transmits the weighing information once every two hours when the weighing machine 100 is transmitting the weighing information once an hour, The weighing information firstly received after the weighing information transmission time interval changing command 130 is transmitted is still received one hour after receiving the previous weighing information and the second weighing information is received after two hours thereafter do.

If there is an instruction immediate processing user input on the meter 100 or the meter modem 110 when a metering information transmission time interval change command is sent to and stored in the metering repeater 120, then the meter modem 110 transmits the metering information transmission time The metering information transmission time interval change command stored in the metering repeater 120 is immediately transmitted to the metering device 100 or the meter modem 110 via the metering relay 120 regardless of the interval, The metering information received by the metering server 130 first is received according to the changed time interval.

 The wireless communication unit 111 of the meter modem 110 receives the ACK for the processing result of the command and then switches to the sleep mode to terminate the communication with the outside (416).

5 is a sequence diagram illustrating a flow of a communication method when a meter modem 110 processes an instruction in the metering system 10 according to an embodiment of the present invention. Referring to FIG. 5, the meter modem 110 switches to the communication mode and receives commands and ACKs as described in FIG. 4 (501-509). Here, since the command is a command to be processed by the meter modem 110, the command is not transmitted to the meter 100. [

The control unit 113 of the meter modem 110 receiving the command processes the command and the wireless communication unit 111 transmits the processing result of the command to the communication unit 121 of the measurement relay apparatus 120 in operation 510. The communication unit 121 of the metering relay apparatus 120 transmits the processing result of the command to the communication unit 131 of the metering server 130 in step 511 and receives the ACK to be transmitted to the wireless communication unit 111 of the meter modem 110 (512, 513). The wireless communication unit 111 of the meter modem 110 switches to the sleep mode and terminates communication with the outside (514).

Thus, since the instruction to be processed by the meter modem 110 is not immediately transmitted to the meter modem 110 but is transmitted after the meter 100 transmits the measurement information once, the metering server 130 immediately transmits the instruction When the processing result is not received and the weighing information is received one time, the processing result of the command is received. In the case of the instruction relating to the transmission of the weighing information, after the weighing server 130 transmits the instruction to the weighing unit 110, the instruction is not reflected in the first weighing information and the instruction is reflected in the second weighing information do.

In one embodiment, the command to be processed by the controller 113 of the meter modem 110 corresponds to a sequence having a value of 0x6X in the COMMAND TYPE field of Table 4 and the meter modem 110 uses a code of 0xEX sequence You can respond. For example, when the metering server 130 wants to know the battery use days of the meter modem 110, the value of the COMMAND TYPE field is set to 0x61, and in the DATA N field area, Can be set to a 2-byte BCD code, and a month and a day can be set to 1-byte BCD codes, respectively. Table 6 shows the date when the requested date is September 26, 2016.

The meter modem 110 may calculate the number of days from the battery initial use date or the battery replacement date to the request date and reply with COMMAND TYPE 0xE1. At this time, the metering server 130 sends the request date to the meter modem 110, so that the meter modem 110 does not need to operate the RTC for the date calculation, thereby further reducing battery consumption.

The command to be processed by the control unit 113 of the meter modem 110 may be a communication error retry count setting. Here, the number of communication error retry times refers to the number of retransmissions of the metering information when a response of the external device to the metering information transmitted by the wireless communication unit 111 is not received.

6 is a sequence diagram showing a flow of a communication method in a case where the meter modem 110 directly communicates with the metering server 130 without going through the metering repeater in the metering system 10 according to the embodiment of the present invention. Referring to FIG. 6, an instruction is set and stored in the instruction setting unit 132 of the weighing server 130 (601). Here, the command may be set by the user as described above, and may be set according to a predetermined condition. Even if the command is set, the meter modem 110 stores the command without transmitting it to the meter modem 110, And transmits the information after transmitting the metering information.

The meter 100 transmits a wakeup signal to the wired communication unit 112 of the meter modem 110 and the wireless communication unit 111 of the meter modem 110 transmits a wakeup signal to the wired communication unit 112 of the meter modem 110, Mode (603). The wired communication unit 112 requests metering information to the metering modem 110 (604), and the metering apparatus 100 transmits the metering information (605).

The wireless communication unit 111 of the meter modem 110 transmits the received metering information to the communication unit 131 of the metering server 130 in step 606. The communication unit 131 of the metering server 130 measures the stored command Together with the ACK in response to the information (607). According to the embodiment, when there is a command stored in the weighing server 130, only the command can be transmitted without transmitting the ACK together. In this case, the wireless communication unit 111 of the meter modem 110 regards the command as an ACK can do.

The wired communication unit 112 of the meter modem 110 transmits a command to the meter 100 in operation 608 and the meter 100 processes the command and transmits the processing result to the wired communication unit 112 of the meter modem 110 (609). The wireless communication unit 111 of the meter modem 110 transmits the command processing result to the communication unit 131 of the metering server 130 and receives the ACK for the command processing result (611).

In one embodiment, if the command received by the wireless communication unit 111 of the meter modem 110 is a command that the meter modem 110 should process, the control unit 113 of the meter modem 110 processes the command and, And transfers the processing result to the communication unit 131 of the weighing server 130.

 The wireless communication unit 111 of the meter modem 110 switches to the sleep mode and terminates communication with the outside (612). Thus, in the case where the measurement relay 130 is not used, the weighing server 130 transmits the instruction as the response when it receives the weighing information from the weighing modem 110 without immediately transmitting the instruction to the weighing modem 110, The reception of the processing result of the command and the reflection of the command to the transmission of the weighing information are delayed. It goes without saying that the processing in the case where a change in the state of the meter 100 occurs or the case where there is an input of the command immediate processing by the user also can be operated in the same manner as described above for the case of passing through the metering relay.

The present invention can also be embodied as computer-readable codes on a computer-readable recording medium. The computer-readable recording medium includes all storage media such as a magnetic storage medium, an optical readable medium, and a carrier wave (for example, transmission over the Internet). It is also possible to record the data format of the message used in the present invention on a recording medium.

The present invention has been described in detail with reference to the preferred embodiments shown in the drawings. These embodiments are to be considered as illustrative rather than limiting, and should be considered in an illustrative rather than a restrictive sense. The true scope of protection of the present invention should be determined by the technical idea of the appended claims rather than the above description. Although specific terms are used herein, they are used for the purpose of describing the concept of the present invention only and are not used to limit the scope of the present invention described in the claims or the claims. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It is to be understood that the equivalents include all components that are invented in order to perform the same function irrespective of the currently known equivalents as well as the equivalents to be developed in the future.

Claims (12)

A wireless communication unit; And
A wired communication unit,
The wireless communication unit intermittently wakes from the sleep mode and switches to the communication mode,
The wired communication unit receives the metering information from the meter,
Wherein the wireless communication unit transmits the metering information to an external device,
The wireless communication unit confirms whether or not the response of the external apparatus to the transmitted metering information is received,
The wireless communication unit switches to the sleep mode after confirming whether or not the response of the external device is received,
Wherein the response of the external device to the transmitted metering information comprises a command to be processed by the meter or the meter modem. The method according to claim 1,
Wherein said command includes 8-bit metering information send digit setting information,
Wherein the upper 4 bits of the metering information transmission digit setting information indicates the number of digits in the integer part of the transmission metering information and the lower 4 bits of the metering information transmission digit setting information indicate the number of digits in the fractional part of the transmission metering information by BCD codes, A working meter modem. The method according to claim 1,
Wherein the command includes a battery usage days transmission request,
The battery use days transmission request includes 4 bytes of request date information,
The upper 2 bytes of the request date information are represented by a year, the next 1 byte by a month, and the next 1 byte by a BCD code,
Wherein the response data for the battery use days transmission request includes the number of days from the battery replacement date to the request date. The method according to claim 1,
The switching from the sleep mode to the communication mode is periodically performed according to a predetermined time interval,
When the predetermined state change occurs in the meter, the wired communication unit immediately receives the wake up signal from the meter regardless of the predetermined time interval,
The wireless communication unit awakes from the sleep mode according to the wake-up signal and switches to the communication mode,
The wired communication unit receives status information of the meter and the latest metering information from the meter,
And the wireless communication unit transmits the state information of the meter and the latest metering information to the external device. The method according to claim 1,
The switching from the sleep mode to the communication mode is periodically performed according to a predetermined time interval,
Immediate processing of instructions If you have user input,
The wireless communication unit immediately wakes from the sleep mode and switches to the communication mode regardless of the predetermined time interval,
The wired communication unit receives the latest metering information from the meter,
The wireless communication unit transmits the latest metering information to the external apparatus,
And the wireless communication unit receives a command to be processed by the meter or the meter modem in response to the latest metering information from the external device. A communication unit; And
And a storage unit,
Wherein the communication unit receives a command to be processed by the meter or the meter modem from the metering server,
The storage unit stores the instruction word,
The communication unit wirelessly receives metering information from the meter modem intermittently,
The communication unit transmits the metering information to the metering server,
And the communication unit wirelessly transmits the stored instruction word to the meter modem in response to the metering information. The method according to claim 6,
Wherein the communication unit does not separately transmit an ACK for the metering information when the stored command is transmitted to the meter modem in response to the metering information. The method according to claim 6,
The wirelessly receiving the metering information is periodically performed according to a predetermined time interval,
The communication unit wirelessly receives status information of the meter and the latest metering information from the meter modem immediately regardless of the predetermined time interval when a predetermined status change occurs in the meter,
And the communication unit transmits the state information of the meter and the latest metering information to the metering server. The method according to claim 6,
The wirelessly receiving the metering information is periodically performed according to a predetermined time interval,
If the meter or meter modem has an instruction immediate processing user input,
The communication unit wirelessly receives the latest metering information from the meter modem immediately regardless of the predetermined time interval,
The communication unit transmits the latest metering information to the metering server,
And the communication unit wirelessly transmits the stored command word to the meter modem in response to the latest metering information. Command setting section; And
And a communication unit,
The communication unit intermittently receives the metering information from the metering repeater wirelessly communicating with the meter modem,
The command setting unit sets a command to be transmitted to the meter modem,
The communication unit transmits the set command to the metering relay,
Wherein the communication unit receives the processing result for the command when receiving the first metering information from the metering repeater after transmitting the command. Command setting section; And
And a communication unit,
The communication unit intermittently receives the metering information from the metering repeater wirelessly communicating with the meter modem,
The command setting unit sets a command to be transmitted to the meter modem,
The communication unit transmits the set command to the metering relay,
Wherein the command sent to the metering repeater is reflected in the second metering information after sending the command to the metering repeater. 12. The method of claim 11,
The receiving of the metering information is periodically performed according to a predetermined time interval,
Wherein the command is a change request of a time interval for receiving the metering information,
Wherein the first metering information received after transmitting the command is received according to a time interval before being changed and the second metering information received after transmitting the command is received according to a time interval after the change. Weighing Server.

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