JP2015163377A - Medical telemeter system, transmitter, and receiver - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a medical telemeter system capable of surely preventing a setting error of a channel allocated to a transmitter, and to provide the transmitter and a receiver.SOLUTION: A transmitter 120 having a transmission part 280 for transmitting patient's biological information by radio by using a prescribed transmission frequency, and a notification part 240 for notifying transmission frequency information showing a transmission frequency, and a receiver 140 having a reception part 340 for receiving the biological information transmitted from the transmission part 280 by radio, and a notified part 300 for receiving notification of the transmission frequency information from the notification part 240, are included. Thus, a channel of the transmitter 120 is automatically notified to the receiver 140 even though a user (for example, a manager) does not perform an input about the channel (transmission frequency) of the transmitter 120 while looking at a surface of the transmitter 120. Then, the receiver 140 can correctly set the channel of the transmitter 120 without requiring user's manual work at all.

Description

  The present invention relates to a medical telemeter system, a transmitter, and a receiver, and is suitable for use in, for example, a medical telemeter system that wirelessly transmits patient biological information from a transmitter to a receiver.

  2. Description of the Related Art Conventionally, there are medical telemeter systems used for patient biological monitoring in hospitals such as ICU (Intensive Care Unit) and CCU (Coronary Care Unit) (see, for example, Patent Document 1). The medical telemeter system includes a transmitter that wirelessly transmits biological information (for example, an electrocardiogram, a heart rate, and SpO2 (oxygen saturation)) detected from a patient, and a receiver that receives the biological information wirelessly transmitted from the transmitter. It is comprised including the machine.

  A dedicated channel (transmission frequency) is assigned in advance to each transmitter. A hospital administrator who uses a large number of transmitters manages the channels assigned to each transmitter, the channels that are currently in use, the channels that can be used in each hospital area (eg, wards, floors, etc.) .

  The transmitter can wirelessly transmit the biological information detected from the patient using the assigned channel. Based on the channel of the radio signal received from the transmitter, the receiver can determine from which transmitter the biological information superimposed on the radio signal is transmitted (that is, which patient is related). . Therefore, the administrator needs to set the channel of the transmitter in the receiver in advance before starting the patient monitoring.

JP 05-161611 A

  However, conventionally, when setting the channel of the transmitter to the receiver, the administrator refers to the channel information displayed by a label or the like on the surface of the transmitter, and then the operation key provided on the receiver side (for example, Channels are set by manual input one by one via numeric keys). That is, since the operation of setting the channel of the transmitter to the receiver depends on the manual operation of the administrator, there has been a problem that an error may occur in the channel setting. In this case, the transmitter management (that is, patient management) on the receiver side is hindered, and proper system operation becomes difficult.

  The present invention has been made to solve such a problem, and provides a medical telemeter system, a transmitter, and a receiver that can reliably prevent misconfiguration of a channel assigned to a transmitter. The purpose is to provide.

The medical telemeter system according to the present invention is:
A transmitter having a transmitter that wirelessly transmits the biological information of the patient using a predetermined transmission frequency, and a notification unit that notifies the transmission frequency information indicating the transmission frequency;
The notified unit that receives the notification of the transmission frequency information from the notification unit, the reception frequency is set based on the transmission frequency information received by the notified unit, and the biological information wirelessly transmitted from the transmitting unit A receiver having a receiving unit for receiving and demodulating;
It is provided with.

Moreover, the transmitter according to the present invention is:
A transmitter that wirelessly transmits patient biological information using a predetermined transmission frequency;
A notification unit for notifying transmission frequency information indicating the transmission frequency;
With
The notification unit transmits and receives the transmission frequency information using a communication method different from that of the transmission unit and prior to transmission by the transmission unit.

The receiver according to the present invention is
A receiver that receives a signal from a transmitter having a transmitter that wirelessly transmits biological information of a patient using a predetermined transmission frequency and a notification unit that notifies the transmission frequency information indicating the transmission frequency,
A notified unit that receives notification of the transmission frequency information from the notification unit;
A reception unit that sets a reception frequency based on the transmission frequency information received by the notified unit and receives and demodulates the biological information wirelessly transmitted from the transmission unit;
It is provided with.

  According to the present invention, a receiver (for example, an administrator) automatically notifies the receiver of the channel of the transmitter without performing input related to the channel (transmission frequency) of the transmitter while looking at the surface of the transmitter. The Therefore, the receiver can correctly set the channel of the transmitter without any manual input of the reception frequency of the user. Therefore, it is possible to reliably prevent setting mistakes in the channel assigned to the transmitter.

It is a block diagram which shows the structural example of the notification system in this Embodiment. It is a flowchart which shows the operation example of the notification system in this Embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing a configuration example of a notification system 100 (corresponding to the “medical telemeter system” of the present invention) in the present embodiment. In the present embodiment, the notification system 100 is a medical telemeter system used for patient biological monitoring.

  As shown in FIG. 1, the notification system 100 is wirelessly transmitted from a transmitter 120 that wirelessly transmits biological information (for example, an electrocardiogram, a heart rate, SpO2 (oxygen saturation)) detected from a patient, and the transmitter 120. And a receiver 140 for receiving the biometric information.

  Next, the configuration of the transmitter 120 will be described. As illustrated in FIG. 1, the transmitter 120 includes a power control unit 200, a transmission frequency information storage unit 220, a notification unit 240, a biological information detection unit 260, and a transmission unit 280.

  The power supply control unit 200 controls the power supply of the transmitter 120. Specifically, the power control unit 200 determines whether a power switch (not shown) provided in the transmitter 120 is pressed. If it is determined that the power switch has been pressed, the power supply control unit 200 sets each block in the transmitter 120 (transmission frequency information storage unit 220, notification unit 240, biological information detection unit 260, and transmission unit 280) as necessary. The power supply voltage is supplied and the notification unit 240 is notified that the power is turned on. On the other hand, if it is determined that the power switch is not pressed, the power control unit 200 waits until the power switch is pressed.

  The transmitter 120 is provided with a visible light emitting diode for displaying that the power is turned on. When determining that the power switch has been pressed, the power control unit 200 turns on the visible light emitting diode for a predetermined time (for example, about 10 seconds).

  The transmission frequency information storage unit 220 stores transmission frequency information indicating a dedicated transmission frequency (channel) assigned to the transmitter 120 in advance.

  When the notification unit 240 receives a notification that power is turned on from the power supply control unit 200, the notification unit 240 extracts the transmission frequency information from the transmission frequency information storage unit 220 and notifies the receiver 140 of the transmission frequency information. In the present embodiment, when the visible light emitting diode is turned on by the power supply control unit 200, the notification unit 240 uses the visible light emitted by the visible light emitting diode (superimposed on the visible light signal). The transmission frequency information is notified by transmitting the transmission frequency information.

  The biological information detection unit 260 detects biological information (for example, an electrocardiogram, a heart rate, SpO2 (oxygen saturation)) of the patient from a sensor connected to the patient. Then, the biological information detection unit 260 outputs the detected biological information to the transmission unit 280.

  When the biological information is output from the biological information detection unit 260, the transmission unit 280 uses the transmission frequency indicated by the transmission frequency information stored in the transmission frequency information storage unit 220 (superimposed on the radio signal), The biometric information is wirelessly transmitted to the receiver 140.

  Next, the configuration of the receiver 140 will be described. As shown in FIG. 1, the receiver 140 includes a notified unit 300, a reception frequency storage unit 320, a receiving unit 340, and a biological information display unit 360.

  The notified unit 300 receives the transmission frequency information transmitted from the notification unit 240 of the transmitter 120 to receive notification of the transmission frequency information. Then, the notified unit 300 outputs the notified transmission frequency information to the reception frequency storage unit 320.

  When the transmission frequency information is output from the notified unit 300, the reception frequency storage unit 320 stores the transmission frequency indicated by the transmission frequency information as a reception channel (reception frequency) for the transmitter 120, and receives the reception frequency. The unit 340 is instructed (set) to receive the frequency. With this setting, the receiver 140 can determine that the biological information superimposed on the radio signal is transmitted from the transmitter 120 based on the transmission frequency of the radio signal received from the transmitter 120. .

  The reception unit 340 receives the biological information transmitted from the transmission unit 280 of the transmitter 120 and displays the biological information on the biological information display unit 360.

  Next, the operation of the notification system 100 in the present embodiment will be described. FIG. 2 is a flowchart showing an operation example of the notification system 100 according to the present embodiment.

  First, the power control unit 200 determines whether or not a power switch provided in the transmitter 120 has been pressed (step S100). If power supply control unit 200 determines that the power switch has not been pressed (NO in step S100), the process transitions to step S100.

  On the other hand, when power supply control unit 200 determines that the power switch has been pressed (YES in step S100), power supply control unit 200 includes each block in transmission 120 (transmission frequency information storage unit 220, notification unit 240, A necessary power supply voltage is supplied to each of the biological information detection unit 260 and the transmission unit 280), and the notification unit 240 is notified that the power is turned on. Furthermore, the power control unit 200 turns on the visible light emitting diode for displaying that the power is turned on for a predetermined time (for example, about 10 seconds for 1 minute).

  Next, the notification unit 240 receives a notification that the power is turned on from the power supply control unit 200, and uses the visible light emitted by the visible light emitting diode turned on by the power supply control unit 200 (visible light signal). By transmitting the transmission frequency information, the transmission frequency information is notified to the receiver 140 (step S120).

  Next, the notified unit 300 of the receiver 140 receives the transmission frequency information by receiving the transmission frequency information transmitted from the notification unit 240 of the transmitter 120 (step S140). Then, the notified unit 300 outputs the notified transmission frequency information to the reception frequency storage unit 320.

  Next, the reception frequency storage unit 320 sets the transmission frequency indicated by the transmission frequency information output from the notified unit 300 as a reception channel (reception frequency) for the transmitter 120 (step S160).

  Next, the biological information detection unit 260 determines whether or not the patient's biological information (for example, an electrocardiogram, a heart rate, SpO2 (oxygen saturation)) is detected from a sensor connected to the patient (step S180). ). If biological information is not detected by biological information detection unit 260 (NO in step S180), the process transitions to step S180.

  On the other hand, when biometric information is detected by biometric information detection unit 260 (YES in step S180), biometric information detection unit 260 outputs the detected biometric information to transmission unit 280. Next, the transmission unit 280 uses the transmission frequency indicated by the transmission frequency information stored in the transmission frequency information storage unit 220 (superimposed on the radio signal) to output the biological information output from the biological information detection unit 260. Is wirelessly transmitted to the receiver 140 (step S200). Thereafter, the processing in the transmitter 120 transitions to step S180.

  Finally, the receiving unit 340 receives the biological information transmitted from the transmitting unit 280 of the transmitter 120 and displays it on the biological information display unit 360 (step S220). Thereafter, the processing in the receiver 140 transitions to step S220.

  As described above in detail, the notification system 100 according to the present embodiment includes a transmission unit 280 that wirelessly transmits patient biological information using a predetermined transmission frequency, and a notification unit 240 that notifies transmission frequency information indicating the transmission frequency. And a receiver 140 having a receiver 340 that receives biological information wirelessly transmitted from the transmitter 280, and a notified unit 300 that receives notification of transmission frequency information from the notification unit 240. I am doing so.

  According to the present embodiment configured as described above, even if a user (for example, an administrator) does not input the channel (transmission frequency) of the transmitter 120 while looking at the surface of the transmitter 120, the transmitter 120 The channel is automatically notified to the receiver 140. Therefore, the receiver 140 can correctly set the channel of the transmitter 120 without any manual operation of inputting the reception frequency of the user. Therefore, it is possible to reliably prevent setting mistakes in the channel assigned to the transmitter 120.

  Further, in the present embodiment, the transmission frequency information is notified to the receiver 140 only for a certain time (for example, about 10 seconds) immediately after the transmitter 120 is turned on. Thus, when the transmitter 120 is operated by a battery, the visible light emitting diode is not always lit to notify the transmission frequency information after the transmitter 120 is turned on, and the light emitting diode is always lit. Can reduce battery consumption.

  In the present embodiment, transmission frequency information is transmitted using visible light emitted by a visible light emitting diode. According to this, it is possible to transmit the transmission frequency information by using the visible light emitting diode provided in advance in the transmitter 120 (for displaying that the power is turned on) as it is, and a new light emitting diode can be installed. Costs can be reduced by the amount that is not required.

  The functions of the transmitter 120 and the receiver 140 according to the embodiment described above are realized by software. Actually, the transmitter 120 and the receiver 140 are configured to include a CPU, MPU, RAM, ROM, and the like, and can be realized by operating programs stored in the RAM and ROM. In addition, it is also possible to realize by recording a program that operates so as to fulfill the functions of the present embodiment on a recording medium such as a CD-ROM or an SD memory card and causing the transmitter 120 and the receiver 140 to read the program. It is.

  In the above embodiment, an example in which the notification system 100 is a medical telemeter system used for monitoring a patient's living body has been described, but the present invention is not limited thereto. In short, the notification system 100 may be any system that wirelessly transmits patient biometric information from the transmitter 120 to the receiver 140.

  Moreover, although the said embodiment demonstrated the example which transmits transmission frequency information using visible light, this invention is not limited to this. For example, the transmission frequency information may be transmitted using infrared light emitted from an infrared light emitting diode provided in the transmitter 120 instead of the visible light light emitting diode. In this case, a visible light emitting diode for displaying that power is turned on may be separately provided in the transmitter 120. That is, a visible light emitting diode may be used to indicate that power is turned on, while an infrared light emitting diode may be used to transmit transmission frequency information.

  Moreover, although the said embodiment demonstrated the example which notifies the said transmission frequency information by transmitting transmission frequency information using visible light, this invention is not limited to this. For example, the notification unit 240 may notify by displaying the transmission frequency information on a display unit (not shown) provided in the transmitter 120. In this case, the notified unit 300 receives the notification by reading the transmission frequency information displayed by the notification unit 240 (for example, performing image recognition). As a display format of transmission frequency information, for example, bar code display or numerical display may be employed.

  In addition, each of the above-described embodiments is merely an example of actualization in carrying out the present invention, and the technical scope of the present invention should not be construed as being limited thereto. That is, the present invention can be implemented in various forms without departing from the gist or the main features thereof.

DESCRIPTION OF SYMBOLS 100 Notification system 120 Transmitter 140 Receiver 200 Power supply control part 220 Transmission frequency information storage part 240 Notification part 260 Biometric information detection part 280 Transmission part 300 Notified part 320 Reception frequency memory | storage part 340 Reception part 360 Biological information display part

Claims (11)

A transmitter having a transmitter that wirelessly transmits the biological information of the patient using a predetermined transmission frequency, and a notification unit that notifies the transmission frequency information indicating the transmission frequency;
The notified unit that receives the notification of the transmission frequency information from the notification unit, the reception frequency is set based on the transmission frequency information received by the notified unit, and the biological information wirelessly transmitted from the transmitting unit A receiver having a receiving unit for receiving and demodulating;
A medical telemeter system characterized by comprising: The notification unit and the notified unit transmit and receive the transmission frequency information in a communication method different from the transmission unit and the reception unit, and prior to communication between the transmission unit and the reception unit,
The medical telemeter system according to claim 1. The notification unit notifies the transmission frequency information only when the transmitter is turned on.
The medical telemeter system according to claim 1, wherein the medical telemeter system is a medical telemeter system. The notification unit notifies by transmitting the transmission frequency information using visible light,
The notified unit is notified by receiving the transmission frequency information transmitted from the notification unit,
The medical telemeter system according to any one of claims 1 to 3, wherein the medical telemeter system is a medical telemeter system. The notification unit notifies by transmitting the transmission frequency information using infrared rays,
The medical telemeter system according to any one of claims 1 to 3, wherein the medical telemeter system is a medical telemeter system. The notification unit notifies the display by displaying the transmission frequency information on a display unit,
The notified unit is notified by reading the transmission frequency information displayed by the notification unit,
The medical telemeter system according to any one of claims 1 to 3, wherein the medical telemeter system is a medical telemeter system. The notification unit transmits the transmission frequency information using a visible light emitting diode for displaying that power is turned on.
The medical telemeter system according to any one of claims 1 to 4. A transmitter that wirelessly transmits patient biological information using a predetermined transmission frequency;
A notification unit for notifying transmission frequency information indicating the transmission frequency;
With
The notification unit transmits and receives the transmission frequency information in a communication method different from the transmission unit and prior to transmission of the transmission unit.
A transmitter characterized by that. The notification unit transmits the transmission frequency information using a visible light emitting diode for displaying that power is turned on.
The transmitter according to claim 8. A receiver that receives a signal from a transmitter having a transmitter that wirelessly transmits biological information of a patient using a predetermined transmission frequency and a notification unit that notifies the transmission frequency information indicating the transmission frequency,
A notified unit that receives notification of the transmission frequency information from the notification unit;
A reception unit that sets a reception frequency based on the transmission frequency information received by the notified unit and receives and demodulates the biological information wirelessly transmitted from the transmission unit;
A receiver comprising: The notification unit and the notified unit transmit and receive the transmission frequency information in a communication method different from the transmission unit and the reception unit and prior to communication between the transmission unit and the reception unit,
The receiver according to claim 10.

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