KR102402435B1 - Device for pain data logger - Google Patents

Abstract

The present invention provides a pain information acquisition unit that receives the patient's pain information by means of an input switch, a pain information storage unit that stores the input pain information, transmits the pain information to a user terminal, and requests a connection from the user terminal and It relates to a pain data logger device comprising: a wireless communication unit for receiving a request for transmitting pain information; and a control unit for generating a control command for a storage unit and a wireless communication unit in response to an operation of the input switch or a connection request from the user terminal.
According to the present invention, the pain data logger device can conveniently measure and monitor the pain state of a pain patient, so that the input and use of pain information is convenient, and the device can be used for a long time by saving energy, while providing information on the patient's pain state It has the effect of improving the reliability of patient treatment by systematically identifying

Description

PAIN DATA LOGGER DEVICE FOR PAIN DATA LOGGER

The present invention relates to a pain data logger device, and more particularly, to conveniently measure and monitor the pain state of a patient with pain, to input and use pain information conveniently, and to save energy of the device so that it can be used for a long time. It relates to a pain data logger device that can improve the reliability of patient treatment by systematically grasping the patient's pain state information.

Pain can be seen as a kind of warning to treat when the body is injured or ill. Therefore, the process of objectively and accurately judging the cause of pain is a very important process in treating a diseased body.

Pain in the body is caused by a number of causes. For example, it may be due to a patient-specific physical factor such as a disease possessed by the patient or the patient's constitution, or it may be due to an environmental factor caused by the influence of the surrounding environment.

In the case of patient-specific physical factors, the physician can determine the cause of the pain when treating the patient. However, in the case of environmental factors, since the doctor depends on the patient's memory statement, there is a problem in that the cause of pain cannot be accurately determined according to the distortion or error of the memorized information. Moreover, there is a problem of misuse and abuse of drugs according to drug prescription based on the above physical and environmental factors.

In addition, in order to increase the accuracy in estimating the cause of pain according to the above-mentioned environmental factors, when a patient's sudden pain occurs, the body part where the pain is caused, the degree of pain, and the environmental factors at the time of the pain are separately recorded through means of recording. We have no choice but to expect the patient to record the condition.

Meanwhile, with the development of information and communication technology and the popularization of smart phones, an environment in which various information can be transmitted and received without being restricted by physical time and space is being created. Among them, the PHI (Personal Health Information) Big Data system is like the medical industrial revolution, and it is progressing with the goal of increasing the accuracy of patient treatment, preventing drug abuse, and reducing medical costs. If the patient's pain intensity value is stored and analyzed as big data, artificial intelligence (AI) system development can proceed to increase drug misuse and treatment efficiency.

Analyzing data in the PHI Big Data system is very important, and AI system development is possible only by economically collecting medical-related information. Therefore, personal Internet of medical technology (IOMT) devices that record and deliver patient status information are being developed and distributed.

For IOMT devices that store the patient's medical device use information, biometric information, and drug use information and deliver the patient's condition to the doctor, it is very important to record the time and number of occurrences and deliver it accurately to the doctor. Therefore, a means for stably delivering it is essential, and it is also very important that the cost is economical. In addition, the convenience of using the IOMT device for the patient is also a very important factor. If the location and time of the pain are transmitted together, the patient can analyze how and in what environment the pain occurs.

However, conventional IOMT devices are cumbersome and inconvenient for the patient to use when pain occurs, and they consume a lot of energy in the process of communicating with a user terminal such as a smart phone, so that the battery must be frequently exchanged or recharged.

Korean Patent Registration No. 10-1276363 (Registration Date 2013.06.12.) Korean Patent No. 10-1856638 (Registration Date 2018.05.03.)

It is an object of the present invention to conveniently measure and monitor the pain state of a patient with pain, to input and use pain information conveniently, to save energy of the device so that it can be used for a long time, and to systematically grasp the patient's pain state information. It is to provide a pain data logger device capable of improving the reliability of patient treatment.

In order to achieve this object, the pain data logger device according to the present invention includes a pain information acquisition unit that receives the patient's pain information by means of an input switch, a pain information storage unit that stores the input pain information, and a user terminal that stores the pain information. and a wireless communication unit for receiving a connection request and pain information transfer request from the user terminal, and a control unit for generating a control command for the storage unit and the wireless communication unit by manipulation of the input switch or a connection request from the user terminal It may consist of

The pain information may be a level of pain input through the pain information obtaining unit, the number of times of inputting pain information, and information on a time interval between inputting pain information.

When the pain information is obtained through the pain information obtaining unit, the control unit stores the obtained pain information in the pain information storage unit, and controls to transmit the obtained pain information to the user terminal through the wireless communication unit. When the pain information is obtained through (Beacon) mode or the pain information obtaining unit, the pain information is stored in the pain information storage unit, and the previously stored past pain information and the obtained current pain information are recalled together. A control command may be generated in a pairing mode for controlling transmission to the user terminal through a wireless communication unit.

In the beacon mode, the control unit determines that the user terminal fails to check the pain information more than a preset number of times, or fails to transmit the pain information due to a problem with the pain data logger device or the wireless communication unit If it is determined that it is, it can be controlled to automatically switch to the pairing mode.

The control unit may control to automatically switch to the pairing mode when there is an operation of a control switch of the pain data logger or a connection request from the user terminal during the beacon mode.

The pain data logger device according to the present invention provides convenient input and use of pain information so as to conveniently measure and monitor the pain state of a patient with pain, and save energy of the device so that it can be used for a long time, while saving the pain state information of the patient. It has the effect of improving the reliability of patient treatment by systematically identifying it.

1 is a schematic diagram showing the overall components of a pain data logger device according to an embodiment of the present invention.
2 is a schematic diagram illustrating a hardware block diagram when a prototype of a pain data logger device according to an embodiment of the present invention is manufactured.
3 is a schematic diagram illustrating an external appearance of a pain data logger device according to an embodiment of the present invention when a prototype is manufactured.
4 is a schematic diagram illustrating a connection state with a user terminal in a driving mode in which a beacon mode and a pairing mode of the pain data logger device according to an embodiment of the present invention are implemented together by a control unit.
5 is a schematic diagram illustrating a state in which the pain data logger device and various types of user terminals and server devices are linked 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 describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, in describing the embodiments of the present invention, specific numerical values are merely examples.

1 is a schematic diagram showing the overall components of the pain data logger device according to an embodiment of the present invention. A schematic diagram is shown, and FIG. 3 is a schematic diagram showing an external appearance when a prototype of the pain data logger device according to an embodiment of the present invention is manufactured.

4 is a schematic diagram showing a connection state with a user terminal in a driving mode in which the beacon mode and the pairing mode of the pain data logger device according to an embodiment of the present invention are implemented together by the control unit, and FIG. 5 is the present invention A schematic diagram showing a state in which a pain data logger device according to an embodiment of the present invention is connected with various types of user terminals and server devices is shown.

Referring to these drawings, the pain data logger device 100 according to the present invention includes a pain information acquisition unit 110 that receives the patient's pain information by means of an input switch 111, and pain information that stores the input pain information. The storage unit 120, the wireless communication unit 130 for transmitting the pain information to the user terminal 200, and receiving the connection request and the pain information transmission request from the user terminal 200, and the input switch 111 operation Alternatively, the controller 140 may be configured to generate a control command for the storage unit 120 and the wireless communication unit 130 in response to a connection request from the user terminal 200 .

That is, the pain data logger device 100 according to the present invention conveniently obtains the patient's pain information through the pain information acquisition unit 110 and stores it in the pain information storage unit 120 , and stores this pain information in the wireless communication unit 130 . ), which is implemented as a logger device with a simple structure to transmit pain information, it is convenient to input and use pain information. By being implemented so that there is an advantage that can improve the reliability of patient treatment.

Here, the pain information acquisition unit 110 may be configured as an input switch 111 including two or more unit switches so that a patient can intuitively and conveniently input his or her pain state, and the pain data logger device At 100, a separate display unit 150 may be further formed so that the patient can conveniently grasp the patient's pain state input by the input switch 111 .

Also, the wireless communication unit 130 may include, for example, a GPS module, a micro controller unit, and a WAN line (such as GSM or CDMA or LTE M1) that provides a wide area network.

In addition, the pain data logger device 100 may include a battery for supplying power, and transmit various information (temperature, humidity, pressure or not) stored in the memory of the pain information storage unit 120 to a PC or a mobile terminal, etc. It may include a USB local interface (USB local interface) and an external power connector.

When the pain data logger device 100 is implemented as a prototype, for example, as in the block diagram of FIG. 2 , as the pain information obtaining unit 110 Wake up & Butten Circuit, as the pain information storage unit 120 . 512K Flash Memory, RF Interface Analog as the wireless communication unit 130, and MCU (Main Control Unit) as the control unit 140, BLE Communication Controller, etc. Energy SCR) may be implemented in an additionally added form.

The pain information is information about the patient's various pains input through the pain information obtaining unit 110, for example, a pain value in which large and small are expressed based on an absolute reference value or a large and small value is expressed as a relative value. It may be a pain level value that can be set as a pain value, etc., the number of times of inputting pain information, and information on a time interval for inputting pain information.

Preferably, the driving mode of the pain data logger device 100 in which the control command is generated by the controller 140 is when the pain information is obtained through the pain information obtaining unit 110, the obtained pain information is A beacon mode or the pain information acquisition unit 110 that stores the pain information storage unit 120 and controls to transmit the obtained pain information to the user terminal 200 through the wireless communication unit 130 . When the pain information is obtained through It may be in a pairing mode for controlling transmission to the user terminal 200 through .

That is, the control command for the driving mode generated by the controller 140 is a beacon that is controlled so that when the patient's pain information is obtained, the pain information acquisition unit 110 stores it and transmits it to the user terminal 200 at the same time. ) mode and when the patient's pain information is obtained, the pain information acquisition unit 110 stores it and transmits it to the user terminal 200 at the same time, but the previously stored past pain information and the acquired current pain information are recalled together. By being configured in a pairing mode that is controlled to be transmitted to the user terminal 200 through the wireless communication unit 130, the beacon mode, which is a driving mode of the logger device, which can reduce power consumption of the pain data logger device, and By selectively operating the pairing mode that can effectively grasp the patient's past history information about the patient's pain occurrence, the logger's power consumption can be minimized, and pain data can be more effectively provided to users who need patient's pain information. .

When such a beacon mode and a pairing mode are implemented between the pain data logger device 100 and the user terminal 200, the logger device 100 serves as a Serve function to receive a Connection, and the user terminal 200 ) acts as a client requesting data.

At this time, the switching state between the pain data logger device 100 and the user terminal 200 is as shown in FIG. 4 , for example, pain information 5 times from the pain data logger device 100 to the user terminal 200 . In the beacon mode delivered to requests a connection to the logger device 100 and when the logger device 100 accepts it, the driving mode is converted to a pairing mode, and in this pairing mode, the user terminal 200 is the logger The device 100 requests the third pain information and the fourth pain information and receives them. Thereafter, the user terminal 200 transmits a pain information acknowledgment message to the logger device 100, requests disconnection, terminates the pairing mode, and is converted back to the beacon mode 6 The first pain information is received.

In the beacon mode, when a patient's pain state change event occurs in the logger device 100, it is measured and transmitted to the user terminal 200 in a beacon method. A special connection procedure with the user terminal is required. It is a transmission method that has the advantages of simple data transmission and low energy consumption. In addition, in the pairing mode, when a patient's pain state change event occurs, the sequence of these events is not uniformly transmitted to the user terminal 200, or event data is not well transmitted to the user terminal 200, The method of recovering past event data stored in the pain information storage unit 120 and delivering it to the user terminal 200 has the advantage of being able to systematically and stably provide the event data, but A separate connection procedure is required, and energy consumption is large compared to the Beacon mode.

To describe the characteristics of the beacon mode and the pairing mode further, the Beacon Mode is a Broadcasting Mode, in which information is unilaterally transmitted, and is a mode in which data is transmitted randomly. In this case, the device executing the Beacon Mode does not need to separately recognize the state of the counterpart device, such as a user terminal. Pairing mode means to communicate by recognizing the counterpart device to communicate with (Mac address) and requesting a connection. For example, in order for a device A and a device B to communicate in Pairing Mode, it means that they exchange information to connect with each other and exchange data while making an effort to continuously maintain the connection. Specifically, in the case of a smartphone and a Bluetooth speaker, pairing mode is performed to transmit sound data better, and sound data is transmitted while minimizing data loss.

In addition, the Beacon mode and the Pairing mode do not exist at the same time, and since they cannot exist at the same time in the communication protocol, they can be implemented through mode switching respectively.

In addition, in the data transmission process of the pairing mode, by storing the time interval information at which the patient's pain state change event occurred, and providing the past predetermined time interval pain information together with the event occurrence time period to the user terminal, an event without a GPS module It is possible to infer environmental information such as the patient's place information, temperature and humidity level at the time of occurrence, and the total event time can be easily derived even when only the occurrence time of one of the events is known. In this case, such a function may be implemented using a GPS IC (Integrated Circuit) or the like.

In the beacon mode, the control unit 140 determines that the user terminal 200 has not checked the pain information more than a preset number of times, or the pain data logger device 100 or the wireless communication unit ( 130), when it is determined that the pain information cannot be transmitted due to the problem, it may be configured to automatically switch to the pairing mode.

That is, the pain data logger device 100 determines whether pain information is checked in the user terminal 200 during the beacon mode, and when it is determined that the delivery and confirmation of the pain information is not smooth, the pain information By automatically switching to a pairing mode having excellent stability and reliability of delivery, it is possible to further maximize the efficiency of pain information delivery to the user terminal 200 .

In addition, the control unit 140 automatically switches to the pairing mode when there is a request to operate the control switch 141 of the pain data logger or the user terminal 200 during the beacon mode. It can be configured to control to do so.

That is, when the control switch 141 is turned on or there is a connection request from the user terminal 200, the control unit 140 immediately switches to the pairing mode to provide current pain information and past pain information. By providing the information to the user terminal 200 at the same time, it is possible to improve the accuracy and stability of understanding the user's pain information.

In this regard, the pain data logger device 100 is an Internet of Medical Things (IoMT) device as shown in FIG. 5 , and the user terminal 200 is a smart access point (AP) such as a smart phone. ) device, and when a patient's pain information change event occurs through the Internet of Medical Things (IoMT) device, the IoMT device displays Event information on the smart phone in a Beacon mode state. transmits, the smart phone may be implemented to store the event information in a cloud such as a server, and to allow a user such as a doctor to check the information.

However, if the Event information is not delivered to the user terminal 200, such as the smart phone, the smart phone checks the sequence number of the event information, and a preset normal sequence number (Sequence number) If it is determined that it is not, the system can be designed to restore the event information data by requesting the IoMT device to switch the pairing mode.

The control unit 140 includes a processor, a memory for storing and executing program data, a permanent storage such as a disk drive, a communication port for communicating with an external device, a touch panel, a key, a button, etc. It may include the same user interface device and the like. Methods implemented as software modules or algorithms may be stored on a computer-readable recording medium as computer-readable codes or program instructions executable on the processor. Here, as a computer-readable recording medium, a magnetic storage medium (eg, read-only memory (ROM), random-access memory (RAM), floppy disk, hard disk, etc.) and an optical readable medium (eg, CD-ROM) ROM) and DVD (Digital Versatile Disc). The computer-readable recording medium may be distributed among network-connected computer systems, so that the computer-readable code may be stored and executed in a distributed manner. Also, the medium may be readable by a computer, stored in a memory, and executed by a processor. Here, the computer may include, for example, a set-top box, a laptop equipped with a web browser, a desktop, and a laptop.

As described above, in the present invention, specific matters such as specific components, etc., and limited embodiments and drawings have been described, but these are only provided to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , various modifications and variations are possible from these descriptions by those of ordinary skill in the art to which the present invention pertains.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and not only the claims to be described later, but also all those with equivalent or equivalent modifications to the claims will be said to belong to the scope of the spirit of the present invention. .

100: device as pain data
110: pain information acquisition unit
120: pain information storage unit
130: wireless communication unit
140: control unit

Claims (5)

a pain information obtaining unit that receives the patient's pain information by means of an input switch;
a pain information storage unit for storing the input pain information;
a wireless communication unit for transmitting the pain information to a user terminal and receiving a connection request and a pain information transmission request from the user terminal; and
A control unit for generating a control command for the storage unit and the wireless communication unit according to the input switch operation or the connection request of the user terminal;
The pain information is a number of pain levels input through the pain information acquisition unit, the number of times of inputting pain information, and information on a time interval between inputting pain information,
The pain information obtaining unit may be configured as an input switch including two or more unit switches so that the patient can intuitively and conveniently input his or her pain state, A separate display unit is formed for convenient understanding,
When the pain information is obtained through the pain information obtaining unit, the control unit stores the obtained pain information in the pain information storage unit, and controls to transmit the obtained pain information to the user terminal through the wireless communication unit. When the pain information is obtained through (Beacon) mode or the pain information acquisition unit, the pain information is stored in the pain information storage unit, and the previously stored past pain information and the acquired current pain information are recalled together. It is determined that a control command is generated in a pairing mode for controlling transmission to the user terminal through a wireless communication unit, and the pain information has not been checked for a predetermined number of times or more in the user terminal during the beacon mode Or, when it is determined that the pain information cannot be transmitted due to a problem in the wireless communication unit, control to automatically switch to the pairing mode, a pain data logger device. delete delete delete delete

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