Search

CN-114305327-B - Living body monitoring device

CN114305327BCN 114305327 BCN114305327 BCN 114305327BCN-114305327-B

Abstract

A living body monitoring device includes a sensor included in a sensor device, which performs a detection process of detecting a medical condition in a patient, which performs a process of generating first detection data that shows a result of the detection process, a generation unit, which performs a process of generating second detection data that shows content related to the detection process and has a smaller data amount than the first detection data based on the first detection data, a communication unit implemented by the sensor device, which performs a process of transmitting the second detection data to a terminal corresponding to the patient, and a control unit, which, when it is determined that the sensor device is present in the patient, causes the communication unit to perform a process of transmitting the second detection data to the terminal.

Inventors

  • YOSHIDA YOSHIFUMI
  • Kyoya Ryosuke
  • Hon hung Tai Lung

Assignees

  • 精工控股株式会社
  • 科学能源有限公司

Dates

Publication Date
20260505
Application Date
20210927
Priority Date
20200930

Claims (4)

  1. 1. A living body monitoring device is provided with: a sensor included in the sensor device, performing a detection process of detecting a medical condition in a body of a patient, performing a process of generating first detection data showing a result of the detection process; a generation section implemented by the sensor device, which performs a process of generating second detection data that shows content related to the detection process and that has a smaller data amount than the first detection data, based on the first detection data; A communication unit implemented by the sensor device and configured to perform a process of transmitting the second detection data to a terminal corresponding to the patient; A determination unit configured to determine whether or not the sensor device is present in the patient based on at least one of the first detection data and the second detection data, and A control unit that, when it is determined that the sensor device is present in the body of the patient, causes the sensor to execute a process of generating the first detection data, causes the generation unit to execute a process of generating the second detection data, causes the communication unit to execute a process of transmitting the second detection data to the terminal, In the case where it is determined that the sensor device is present in the body of the patient, the control section controls the communication section so that the second detection data is transmitted to the terminal at a first cycle, In the case where it is determined that the sensor device is not present in the body of the patient, the control section controls the communication section so that the second detection data is transmitted to the terminal at a second period shorter than the first period, The determination unit calculates a time when the sensor device is not present in the patient based on at least one of the first detection data and the second detection data, further determines whether the time exceeds a predetermined threshold, When it is determined that the time exceeds a predetermined threshold, the control unit lengthens the second period.
  2. 2. The living body monitoring device according to claim 1, wherein, The determination unit calculates a time when the sensor device is not present in the patient based on at least one of the first detection data and the second detection data, further determines whether the time exceeds a predetermined threshold, When it is determined that the time exceeds a predetermined threshold, the generation unit generates recommended data for causing the terminal to execute processing of outputting information that recommends to the patient that the sensor device is provided in a state in which the sensor device is present in the patient, The communication unit transmits the recommended data to the terminal.
  3. 3. The living body monitoring device according to claim 1, wherein, The communication unit transmits the second detection data to the terminal without receiving a request to transmit the second detection data to the terminal.
  4. 4. The living body monitoring device according to claim 1, wherein, The device further comprises a storage unit for storing the first detection data.

Description

Living body monitoring device Technical Field The present invention relates to a living body monitoring device. The present application claims priority based on japanese patent application publication No. 2020-165931 of the application of japan, 9/30/2020, the contents of which are incorporated herein by reference. Background Currently, development of a technique of detecting a medical state of a patient by a sensor mounted to a medical device or medical instrument used in the body of the patient and performing medical action on the patient based on the detected result is advancing. For example, patent document 1 discloses a living body information measuring apparatus including a sensor, a reading unit, a transmitting unit, and a power supply unit. The sensor is mounted in the oral cavity and measures living body information of the user. The reading unit is provided in the oral cavity and reads external information from an information transmitting device existing outside the oral cavity. The transmitting section transmits the living body information detected by the sensor and the read external information. The power supply unit supplies power to the transmitting units and the sensors. The reading unit reads the identifier information stored in the information transmitting device attached to the living goods from the information transmitting device when the user brings the living goods close to the oral cavity. Prior art literature Patent literature Patent document 1, japanese patent application No. 6376588. However, the living body information measuring apparatus described above measures living body information of a user by a sensor regardless of whether the living body information measuring apparatus is mounted in the oral cavity of the user, reads external information from an information transmitting apparatus by a reading unit, and transmits the living body information detected by the sensor and the read external information by a transmitting unit. Therefore, the living body information measuring apparatus described above may reduce the power that can be supplied by the power supply unit in advance. Further, the living body information measuring apparatus described above does not notify the user of information related to measurement of living body information, and thus, the user's aggressiveness in measurement of living body information, treatment using living body information, and the like may not be improved. Disclosure of Invention Problems to be solved by the invention The invention aims to provide a living body monitoring device which can reduce power consumption and improve the enthusiasm of a patient for detection processing for detecting the medical state of the patient. Means for solving the problems (1) A living body monitoring device according to one embodiment of the present invention includes a sensor that is included in a sensor device and performs a detection process for detecting a medical condition in a patient, a determination unit that determines whether or not the sensor device is present in the patient based on at least one of the first detection data and the second detection data, a generation unit that is implemented by the sensor device and performs a process for generating second detection data that is smaller than the first detection data and that shows content related to the detection process, a communication unit that is implemented by the sensor device and performs a process for transmitting the second detection data to a terminal corresponding to the patient, and a control unit that, when it is determined that the sensor device is present in the patient, causes the sensor to perform a process for generating the first detection data, causes the generation unit to perform a process for transmitting the second detection data to the terminal, and causes the second detection data to be transmitted to the terminal. (2) When it is determined that the sensor device is not present in the patient, the control unit may stop the process of generating the first detection data, stop the process of generating the second detection data, and stop the process of transmitting the second detection data to the terminal by the communication unit. (3) The control unit may control the communication unit so that the second detection data is transmitted to the terminal at a first cycle when it is determined that the sensor device is present in the body of the patient. (4) The control unit may control the communication unit so that the second detection data is transmitted to the terminal at a second period shorter than the first period when it is determined that the sensor device is not present in the patient. (5) The determination unit may calculate a time when the sensor device is not present in the patient based on at least one of the first detection data and the second detection data, further determine whether the time exceeds a predetermined threshold, and when it is determined that the time exce