KR102040559B1 - Method of Preventing CPU sensor' Misinformation by Using Terminating Resistors and BLE Chip and System thereof - Google Patents

Abstract

The present invention relates to a method for preventing a false report connected to a main device using a termination resistor and a BLE chip, which comprises the steps of: installing a false report preventing application in a smart terminal; waiting for reception of a beacon signal by a smart terminal carried by an operator; receiving, by the smart terminal, a beacon signal from a BLE chip of the termination resistor; activating, by the smart terminal, the false report preventing application to display an input window on a display unit; inputting and storing, by the operator, a failure cause of a sensor and contract information on the sensor in the input window; transmitting, by the smart terminal, input information to a management server to store the same; waiting for reception of completion information on termination resistor installation by the management server; determining termination resistor installation completion by the management server; and completing and terminating the termination resistor installation when the operator transmits information on the termination resistor installation to the management server through the smart terminal.

Description

Method of preventing false alarm of sensor connected to main device using terminating resistor and BLE chip and method of preventing false alarm of sensor using same {Method of Preventing CPU sensor 'Misinformation by Using Terminating Resistors and BLE Chip and System

The present invention relates to a mismanagement method of a sensor connected to a main device. In general, when a problem occurs in the sensor connected to the main unit, it is a loopless process to prevent misinformation until the problem is solved. Looping can be divided into hardware looping performed by technical support staff and software looping performed on the control server. Software looping is performed on the control server so that it can be checked computationally, but hardware looping can be reported by the operator to the control server. Until now, there is no way to know.

    The prior art related to the present invention is disclosed in Korean Patent Publication No. 10-2014-0006165 (published Jan. 16, 2014). 1 is a block diagram of the conventional multi-hop routing and looping prevention device. 1 is a diagram illustrating a destination packet in a wireless network transmitted from a source node according to an embodiment of the present invention. It shows the process of determining whether the received message packet. The destination node in the wireless network (1) receives a message packet from the source node (410). (2) The received message packet has a different processing according to the transmitted communication method (420). The communication method includes a unicasting communication method, a multicasting communication method, and a broadcasting communication method. Applied to broadcasting communication method. (3) Extract the source address Sender_Address from the received message packet (430). This address is used later to send a response to the source node. (4) The sequence pattern (Sequence_Pattern), the hop counter (Hop_Counter), and the session open time (TSOD) are extracted from the received message packet (440). (5) The destination node in the wireless network that has received the message packet from the source node compares whether the previous sequence pattern (p_Sequence_Pattern) it has recorded and stored with the sequence pattern extracted from the currently received message packet is the same (450). If the sequence pattern currently received and extracted is the same as the previous sequence pattern recorded and stored by the user, the received message packet is discarded because the received packet is already received. However, if the sequence pattern is different from the previous sequence pattern, it is processed because a new message packet is sent from the source node. (6) Then, it is compared whether the hop counter (Hop_Counter) extracted from the received message packet is '0' (460). If the hop counter (Hop_Counter) is '0', it means that the node has passed through the maximum number of routing hops specified by the source node and processed the message content without performing any further routing. However, if the hop counter (Hop_Counter) is not '0', it can perform further routing and proceed to the next step for routing progression. (7) The maximum number of routing hops determined by the source node, the extracted hop counter (Hop_Counter), and the time required to process the message packets received by each node (TNRP: Time of Node Response Processing). Calculate the time required for sending a response message packet to a node (TTRP). Subtracting the hop counter (Hop_Counter) from the maximum hop counter (MAX_HOP_COUNTER) calculates the number of nodes passed so far, and multiplies this value by the time it takes for each node to process it (TNRP). It's time. If you double this amount of time, it takes time to respond from your node to the source node. If this value is added to the time required to process at its own node (TNRP), this time is the time required to process at its own node and arrive at the source node (TTRP) (470). (8) The total response processing time (TTRP) calculated in step (7) is compared with the session open time (TSOD) (480). It decides whether to perform routing to the destination node. If the total response processing time (TTRP) is less than or equal to the session open time (TSOD), multihop routing is performed so that the next destination node also receives a message packet from the source node (490-530). The node does not perform any further routing but processes only the message contents (530). (9) If the overall response processing time is less than the session open time in step (8), the hop counter (Hop_Counter) is decreased by '1' to perform additional multihop routing (490). (10) Create a new broadcasting packet based on the sequence pattern extracted from the message packet received from the source node, the hop counter (Hop_Counter), and the received message packet (500). The sequence pattern extracts the pattern extracted from the source node. This is used to compare whether the other destination nodes receiving the new message packet have already received the source node's message packet through different paths, and the contents of the message when creating a new message packet must be used as it is from the source node. The destination nodes must also take appropriate action. (11) The destination node transmits the newly created message packet in a broadcasting manner (510). (12) The sequence pattern (Sequence_Pattern) extracted from the source node is stored as the previous sequence pattern (p_Sequence_Pattern) (520). In this way, when a message packet is received from another node, it can be known by comparing with the previous sequence pattern whether the message packet has been received or is a new message. (13) After the transmission of the message packet received from the source node from the node to another node, the content of the message received from the source node is processed (530). Through the above process, the node prevents the looping phenomenon of repeatedly receiving the same message packet transmitted by the broadcasting method and performs multi-hop routing to the node that can respond only during the session open time.

The conventional multi-hop routing and looping prevention device configured as described above is applied to a wireless network, and there is a problem that cannot be applied to a device consisting of a main device and a sensor. In addition, the prior art structured as described above is complicated in configuration by receiving duplicate message packets. Therefore, an object of the present invention is to make it possible to recognize a problem in the sensor connected to the main device when the operator performs a hardware looping in the main device and the management server. In addition, another object of the present invention is to make a computerized record of which sensor a lot of problems occur.

The mis-prevention method of the sensor connected to the main device using the terminal resistor and the BLE chip of the present invention having the above object comprises the steps of installing the mis-prevention prevention app on the smart terminal, and the smart terminal possessed by the worker waiting for reception of the beacon signal. And, receiving the beacon signal from the BLE chip of the terminating resistor by the smart terminal, and activating the anti-misuse app on the smart terminal to display the input window on the display unit, and the operator causes the sensor to fail in the input window. Inputting and storing contract information about the client; allowing the smart terminal to transmit and store the input information to the management server; waiting for the management server to receive termination resistor installation completion information; and managing the terminal resistor Determining the completion of the installation, the operator sends the termination resistor installation information to the management server through the smart terminal If you songhan comprising the step of processing a complete termination resistor installed and terminated.

       The mis-prevention method of the sensor connected to the main device using the terminal resistor and the BLE chip of the present invention configured as described above is set to input whether or not the end-resistor installation is installed by using the mis-prevention installation app of the operator, thereby forgetting the terminating resistor installation. There is an effect that can be prevented. In addition, another effect of the present invention is that it is possible to record and manage the problem of the sensor together with the sensor failure cause contract information.

1 is a block diagram of a conventional multi-hop routing and looping prevention device;
2 is a flow diagram illustrating a method for preventing misinput of a sensor connected to a main device using a terminal resistor and a BLE chip of the present invention;
3 is a configuration diagram of a BLE chip of a termination resistor applied to the present invention;
4 is a configuration diagram of a misinformation prevention system of a sensor connected to a main device using a terminal resistor and a BLE chip of the present invention.

The mis-prevention prevention method of the sensor connected to the main device using the terminal resistor and the BLE chip of the present invention having the above object and the mis-prevention prevention system of the sensor using the same will be described below with reference to FIGS. 2 to 4.

2 is a flowchart illustrating a method for preventing misinput of a sensor connected to a main device using a terminal resistor and a BLE chip of the present invention. In FIG. 2, the method of preventing misleading sensors connected to the main device using the terminal resistor and the BLE chip of the present invention includes installing the misleading prevention app on the smart terminal (S11), and the smart terminal possessed by the worker waiting for reception of a beacon signal. In step S12, the smart terminal receiving a beacon signal from the BLE chip of the terminating resistor (S13), the smart terminal activating the mis-prevention app to display an input window on the display unit (S14), and the operator Inputting and storing the cause of the failure of the sensor, contract information about the sensor, etc. in the input window of the smart terminal (S15), and transmitting the input information to the management server by the smart terminal (S16); Waiting for the server to receive the termination resistor installation completion information (S17), and the management server communicates with the smart terminal of the worker to determine the termination resistor installation completion (S18), In step S18, when the management server receives the termination resistance installation completion information from the worker smart terminal step (S19) to input and save the processing completion, and in step S18 the management server receives the termination resistance installation completion information If not, the step of determining whether the termination resistor installation time is exceeded (S20), and if the termination resistor installation time is exceeded in the step S20 that comprises a step of transmitting a warning call and a message to the worker (S21) It is characterized by. In addition, when the termination resistor installation time is not exceeded in the step S20, it is characterized in that the process is shifted to the step (S17) of waiting for reception of the termination resistor installation completion information again.

3 is a block diagram illustrating a BLE chip of a termination resistor applied to the present invention. In FIG. 3, the BLE chip 20 of the terminating resistor applied to the present invention is connected to the sensor to check the looping. The communication is performed by the resistor 21 and the resistor for impedance matching during communication. Being connected to the current conversion module 22 and the current conversion module is characterized in that consisting of a BLE chip 23 that can know the beacon communication.

4 is a configuration diagram of a misinformation prevention system of a sensor connected to a main device using a terminal resistor and a BLE chip of the present invention. In FIG. 4, the misleading prevention system of the sensor connected to the main device using the terminal resistor and the BLE chip of the present invention installs the misleading prevention app and activates the misleading prevention app when receiving a beacon signal from the BLE chip of the terminating resistor connected to the sensor. The smart terminal 10 and the sensor connected to the main device are displayed on the display unit to allow the operator to input and store the cause of failure of the sensor 27 connected to the main device 25 of the contractor and the contract information. The BLE chip 20 of the terminating resistor installed with the terminating resistor and transmitting the beacon signal, and receives input information from the smart terminal and determines whether the terminating resistor is installed through the communication with the smart terminal, the installation completion information is If it is received from the smart terminal, the processing ends after completion of the processing. If there is no reception of the installation completion information, the terminating resistor To determine whether the device has timed out and to send a warning message to the smart terminal possessed by the operator when the terminating resistor installation time exceeds the set reference time and to maintain the status of receiving installation completion information if the time limit is not exceeded. It is characterized by consisting of a server (30).

10: worker smart terminal, 20: BLE chip of termination resistor,
30: management server

Claims (9)

In the method of preventing mis-detection of the sensor connected to the main unit of the contract using the termination resistor and the BLE chip,
The mis-prevention method of the sensor connected to the main device of the contractor using the termination resistor and the BLE chip,
Installing a misleading prevention app on the smart terminal (S11);
Step S12 of waiting for reception of a wireless signal by a smart terminal possessed by an operator;
Receiving, by the smart terminal, a wireless signal from the BLE chip of the termination resistor installed in the sensor (S13);
Step S14 of the smart terminal to activate the mis-prevention app to display the input window on the display unit;
A worker inputting and storing the cause of failure of the sensor and contract information about the sensor in an input window of the smart terminal (S15);
Step S16 of allowing the smart terminal to transmit the input information to the management server and to store the input information;
Waiting for the management server to receive termination resistor installation completion information (S17);
The management server communicates with the smart terminal of the worker to determine the termination resistor installation completion (S18);
And when the management server receives the termination resistance installation completion information from the worker smart terminal, inputting the processing completion and storing and terminating the processing. How to prevent misinformation.
The method of claim 1,
The mis-prevention method of the sensor connected to the main device of the contractor using the termination resistor and the BLE chip,
In step S18, when the management server has not received the termination resistor installation completion information, determining whether the termination resistor installation time is exceeded (S20);
And sending a warning call and a message to the worker when the installation time is exceeded in step S20, and terminating (S21) an error of the sensor connected to the main device of the contractor using the terminating resistor and the BLE chip. Prevention method.
The method of claim 1,
The wireless signal is,
A method for preventing misinput of a sensor connected to a main device of a contract using a terminating resistor and a BLE chip, characterized in that the beacon signal.
The method of claim 2,
The method of preventing mis-detection of the sensor connected to the contractor's main device using the terminating resistor and the BLE chip,
If the terminating resistor installation time is not exceeded in the step S20, the process is performed from the step S17 of waiting for the termination resistor installation completion information to be received. The sensor connected to the main device of the contractor using the terminating resistor and the BLE chip. How to prevent misinformation.
The method according to claim 1 or 2 or 3 or 4,
The termination resistor and the BLE chip,
It is connected to the sensor to check the looping.In communication, it is connected to the resistor 21 for impedance matching and the resistor, and to the current conversion module 22 and the current conversion module for converting the pulse into direct current. Method of preventing mis-detection of the sensor connected to the main device of the contract using a termination resistor and the BLE chip, characterized in that consisting of a BLE chip (23).
In the false protection system of the sensor connected to the contractor's main device using the termination resistor and the BLE chip,
The false protection system of the sensor connected to the main device of the contractor using the termination resistor and the BLE chip,
If you install the anti-error app and receive a beacon signal from the BLE chip of the terminating resistor connected to the sensor, activate the anti-error app to display the input window on the display to allow the operator to connect the sensor 27 to the main device 25 of the contractor. A cause of failure and smart terminal 10 to input and store contract information;
A BLE chip 20 of a terminating resistor installed with a terminating resistor installed in a sensor connected to the main device and transmitting a wireless signal;
And a management server 30 which receives input information from the smart terminal, determines whether the terminal resistor is installed through communication with the smart terminal, and terminates after completion of the processing when the installation completion information is received from the smart terminal of the worker. A system for preventing false protection of sensors connected to the contractor's main unit using a terminating resistor and a BLE chip.
The method of claim 6,
The BLE chip 20 of the termination resistor,
It is connected to the sensor to check the looping.In communication, it is connected to the resistor 21 for impedance matching and the resistor, and to the current conversion module 22 and the current conversion module for converting the pulse into direct current. The erroneous prevention system of the sensor connected to the main device of the contractor using a termination resistor and the BLE chip, characterized in that consisting of a BLE chip (23).
The method of claim 6,
The wireless signal is,
A misbe-prevention system of a sensor connected to a main device of a contract using a terminating resistor and a BLE chip, characterized in that the beacon signal.
The method of claim 6,
The management server 30,
If the termination resistor installation completion information is not received, it is determined whether the termination resistor installation time is exceeded. If the termination resistor installation time exceeds the set reference time, a warning message is sent to the smart terminal possessed by the operator and the reference time is set. If it is not exceeded, the mis-prevention system of the sensor connected to the main device of the contractor using the terminating resistor and the BLE chip, characterized in that the standby state to receive installation completion information.

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