JP7034449B1 - Leave time determination system, leave time determination device and leave time determination program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To determine a leaving time of a medical worker who works across dates. A transmitter and a receiver included in a detection system are owned by a medical professional on one side and installed in one or more facilities on the other side. Upon receiving the detection signal transmitted from the detection system, the detection unit 210 identifies the detection time of the detection signal, and is a medical person and the medical person based on the transmitter identification information and the receiver identification information included in the detection signal. Identify the accommodation facility of the medical staff and acquire the stay information of the medical staff including the detection time. The undetected time zone determination unit 220 starts at a time when a series of stay information deemed to have been continuously acquired based on the detection time included in the stay information of the medical person is interrupted, and stay information for a predetermined time or longer. The time zone that could not be acquired is determined as the undetected time zone. The leaving time determination unit 230 selects one undetected time zone whose ending time exceeds 24:00 from the determined undetected time zones, and sets the time at which the undetected time zone starts as the leaving time of the medical staff. To decide. [Selection diagram] FIG. 8

Description

The present invention relates to an attendance time determination system, an attendance time determination device, and an attendance time determination program for determining an attendance time of a medical professional.

There is known an attendance management device that obtains the work status of a user based on information transmitted from a beacon transmitter and a beacon receiver, one of which is carried by the user and the other of which is installed at a plurality of predetermined locations. For example, see Patent Document 1 and Patent Document 2). Working conditions are, for example, work, self-improvement, breaks, and going out. These attendance management devices also determine the user's attendance time and departure time. The attendance time is the time when the user first enters the facility, and the departure time is the time when the user last leaves the facility.

Japanese Patent Laid-Open No. 2021-111250 Japanese Patent Application Laid-Open No. 2021-14088

However, medical professionals such as doctors and nurses may be called on-call in an emergency, work across dates, and leave again early the next morning, even after leaving work. In the attendance management device described in Patent Document 1 and Patent Document 2, the time of leaving work cannot be obtained in such a case.

An object of the present invention is to provide an attendance time determination system, an attendance time determination device, and an attendance time determination program capable of determining the leave time of a medical person who may be called on-call and work over a date. Is.

In order to achieve the above object, the leave time determination system of the present invention is used.
It is an attendance time determination system equipped with a detection system and an attendance time determination device.
The detection system has a transmitter and a receiver, one owned by a medical professional and the other installed in one or more predetermined facilities, and the medical professional is one of the predetermined facilities. A detection signal including the transmitter identification information for identifying the transmitter and the receiver identification information for identifying the receiver is repeatedly generated while staying at the receiver, and the generated detection signal is transmitted.
The leaving time determination device
When the detection signal transmitted from the detection system is received, the detection time of the detection signal is specified, and the medical staff and the medical staff stay based on the transmitter identification information and the receiver identification information included in the detection signal. A detection unit that identifies the specified facility and acquires the stay information of the medical staff about the specified facility, including the detection time.
A series of stay information deemed to have been continuously acquired based on the detection time included in the stay information of the medical staff acquired by the detection unit starts at the time when the stay information is interrupted, and the stay information is acquired for a predetermined time or longer. The undetected time zone determination unit that determines the undetected time zone as the undetected time zone,
From the undetected time zones determined by the undetected time zone determination unit, one undetected time zone whose ending time exceeds 24:00 is selected, and the time at which the selected undetected time zone starts is set. The leaving time determination unit that determines the leaving time of the medical staff,
To prepare for.

Preferably, the leave time determination system of the present invention is
If the start of the undetected time zone is before the time obtained by subtracting the predetermined time from 24:00, the leaving time determination unit determines whether or not the ending time exceeds 24:00 and leaves the office. When the time is determined, on the other hand, if the start of the undetected time zone is after the time obtained by subtracting the predetermined time from 24:00, the employee leaves the office when the predetermined time has elapsed from the start of the undetected time zone. Determine the time.

Preferably, the leave time determination system of the present invention is
The detection unit acquires stay information when the predetermined facility specified that the medical staff is staying is the predetermined work facility of the medical staff.

Preferably, the leave time determination system of the present invention is
If the time at which the undetected time zone selected by the leaving time determination unit ends is the detection time included in the stay information acquired by the detection unit next to the stay information at the leaving time, the ending time is set to work. It is equipped with an attendance time determination unit that determines the time.

Preferably, the leave time determination system of the present invention is
The leaving time determination unit selects the earliest undetected time zone in terms of time.

Preferably, the leave time determination system of the present invention is
The leaving time determination unit selects the latest undetected time zone in terms of time.

Preferably, the leave time determination system of the present invention is
The leaving time determination unit selects the longest undetected time zone in terms of time.

Further, the leaving time determination device of the present invention is
One is possessed by a medical professional and the other has a transmitter and a receiver installed in one or more predetermined facilities, and the medical professional is staying in one of the predetermined facilities. When a detection signal is received from a detection system that repeatedly generates a detection signal including transmitter identification information that identifies the transmitter and receiver identification information that identifies the receiver, and transmits the generated detection signal. , The detection time of the detection signal is specified, and the medical staff and the predetermined facility where the medical staff is staying are specified based on the transmitter identification information and the receiver identification information included in the detection signal. A detection unit that acquires stay information about the predetermined facility of the medical staff, including the detection time,
A series of stay information deemed to have been continuously acquired based on the detection time included in the stay information of the medical staff acquired by the detection unit starts at the time when the stay information is interrupted, and the stay information is acquired for a predetermined time or longer. The undetected time zone determination unit that determines the undetected time zone as the undetected time zone,
From the undetected time zones determined by the undetected time zone determination unit, one undetected time zone whose ending time exceeds 24:00 is selected, and the time at which the selected undetected time zone starts is set. The leaving time determination unit that determines the leaving time of the medical staff,
To prepare for.

In addition, the leave time determination program of the present invention is
Computer,
One is possessed by a medical professional and the other has a transmitter and a receiver installed in one or more predetermined facilities, and the medical professional is staying in one of the predetermined facilities. When a detection signal is received from a detection system that repeatedly generates a detection signal including transmitter identification information that identifies the transmitter and receiver identification information that identifies the receiver, and transmits the generated detection signal. , The detection time of the detection signal is specified, and the medical staff and the predetermined facility where the medical staff is staying are specified based on the transmitter identification information and the receiver identification information included in the detection signal. Detection means for acquiring stay information about the predetermined facility of the medical staff, including the detection time,
A series of stay information deemed to have been continuously acquired based on the detection time included in the stay information of the medical staff acquired by the detection means starts at the time when the stay information is interrupted, and the stay information is acquired for a predetermined time or longer. Undetected time zone determining means for determining the undetected time zone as the undetected time zone,
From the undetected time zones determined by the undetected time zone determining means, one undetected time zone whose ending time exceeds 24:00 is selected, and the time at which the selected undetected time zone starts is set. A means for determining the leaving time of the medical person, which is determined as the leaving time of the medical person.
To function as.

According to the present invention, it is possible to determine the leaving time of a medical worker who may be called on-call and work across dates.

It is a figure which shows an example of the structure of the leaving time determination system which concerns on embodiment of this invention. It is a figure which shows the 1st example of the configuration of a detection system. It is a figure which shows an example of the detection signal transmitted from the detection system of FIG. It is a figure which shows the 2nd example of the configuration of a detection system. It is a figure which shows an example of the detection signal transmitted from the detection system of FIG. It is a figure which shows the 3rd example of the configuration of a detection system. It is a figure which shows an example of the detection signal transmitted from the detection system of FIG. It is a figure which shows an example of the structure of the leaving time determination device. It is a figure which shows an example of the medical staff table. It is a figure which shows an example of the accommodation facility table. It is a figure which shows an example of the structure of stay information. It is a figure which shows the 1st example of the leaving time and the attendance time. It is a figure which shows the 2nd example of the leaving time and the attendance time. It is a figure which shows the 3rd example of the leaving time and the attendance time. It is a figure which shows an example of three undetected time zones which occurred when the leaving time determination time was set to 1 hour. FIG. 15A shows an example of selecting the earliest undetected time zone in time. FIG. 15B shows an example of selecting the longest undetected time zone in time. FIG. 15C shows an example of selecting the latest undetected time zone in time. It is a figure which shows an example of the method of determining the leaving time at an early stage. FIG. 16A is an example of the case where the start of the undetected time zone is before (24 o'clock-leave determination time). FIG. 16B is an example in which the start of the undetected time zone is later than (24 o'clock-leave determination time). It is a figure which shows an example of the flow of the leaving time determination processing in the leaving time determination apparatus. It is a figure which shows an example of the medical staff table when the medical staff works in two facilities. It is a figure which shows an example of the stay facility table 270 when the medical staff works in two facilities. It is a figure which shows an example of the leaving time when the medical staff works in two facilities.

Hereinafter, the leave time determination system according to the embodiment of the present invention will be described in detail with reference to the drawings. In all the drawings illustrating the embodiment, the same reference numerals are given to the common components, and the repeated description will be omitted.

FIG. 1 shows an example of the configuration of the leave time determination system 1 according to the embodiment of the present invention.
The leaving time determination system 1 includes a detection system 100 and an leaving time determination device 200.
The detection system 100 and the leave time determination device 200 are connected to the network 10 by wire or wirelessly. The leave time determination device 200 receives a detection signal transmitted from the detection system 100 via the network 10.

The detection system 100 has a plurality of transmitters and a plurality of receivers. One of the transmitter and receiver is owned by a medical professional and the other is installed in one or more predetermined facilities. The transmitter transmits the transmitter identification information to the receiver. The transmitter is uniquely identified by the transmitter identification information in the entire detection system 100. The receiver transmits the transmitter identification information and the receiver identification information. The receiver is uniquely identified by the receiver identification information in the entire detection system 100. The detection system 100 repeatedly transmits the detection signal when the medical staff is staying at any of the predetermined facilities. The detection signal includes transmitter identification information and receiver identification information.
Medical professionals are, for example, doctors, pharmacists, nurses, clinical laboratory technicians, and the like.
The predetermined facility is, for example, a hospital, a clinic, a long-term care facility, or the like.
The transmitter and receiver are, for example, a beacon transmitter and a beacon receiver compliant with the Bluetooth Low Energy (BLE) method. Alternatively, the detection system 100 may be an RFID (Radio Frequency Identifier). In this case, the transmitter is an RF tag and the receiver is an RF tag reader.

FIG. 2 shows a first example 100A of the configuration of the detection system 100.
The detection system 100A includes a beacon transmitter 101, a beacon receiver 102, and a detection signal acquisition device 110.
The beacon receiver 102 is connected to the network 10 by wire or wirelessly. The detection signal acquisition device 110 is connected to the network 10 by wire or wirelessly. Data can be transmitted from the beacon receiver 102 to the detection signal acquisition device 110 via the network 10.

The beacon transmitter 101 is possessed by each individual medical professional. The beacon transmitter 101 periodically transmits a beacon signal by the BLE method. The beacon signal includes a beacon transmitter ID (Identifier). The beacon transmitter ID is identification information that uniquely identifies each beacon transmitter 101 in the entire detection system 100A. The beacon transmitter ID is also medical person identification information for uniquely identifying the medical person who possesses each beacon transmitter 101 in the entire detection system 100A.

The beacon receiver 102 is installed at each entrance / exit of a predetermined facility (for example, hospital A) or at each room in the facility. Each doorway and each room is an example of a given area. Each room is, for example, a surgical examination room, an internal medicine examination room, an otolaryngology examination room, a dermatology examination room, an operating room, a locker room, a conference room, a rest room, a dining room, or the like. When the facility is a university hospital, the beacon receiver 102 may be installed in a professor's room, a laboratory, and a lecture room, respectively.
When the beacon receiver 102 detects the beacon signal within the communicable range, it receives the beacon signal and acquires the beacon transmitter ID. The beacon receiver 102 stores a beacon receiver ID for uniquely identifying itself in the entire detection system 100A in its storage unit. When the beacon receiver 102 receives the beacon signal, it transmits a signal including the beacon transmitter ID and the beacon receiver ID to the detection signal acquisition device 110. The distance that the beacon transmitter 101 and the beacon receiver 102 can communicate with each other is about 2.5 m to 50 m.
The beacon receiver 102 may be a smart phone, a mobile phone, a tablet, a notebook computer, or the like.

The detection signal acquisition device 110 includes a CPU (Central Processing Unit), a main memory composed of a RAM (Random Access Memory) and the like, and a storage unit composed of a hard disk and the like. The detection signal acquisition device 110 can be realized by, for example, a computer. Further, the detection signal acquisition device 110 can be realized by, for example, cloud computing.
A detection signal acquisition program is stored in the storage unit of the detection signal acquisition device 110. The function of the detection signal acquisition device 110 is realized by the CPU of the detection signal acquisition device 110 reading the detection signal acquisition program from the storage unit into the main memory and executing the program.

When the detection signal acquisition device 110 receives a signal including the beacon transmitter ID and the beacon receiver ID from the beacon receiver 102, the detection signal acquisition device 110 repeatedly generates the detection signal 120 shown in FIG. 3, and determines the generated detection signal 120 at the time of leaving work. It is transmitted to the device 200. The detection signal 120 includes a beacon transmitter ID 121, a beacon receiver ID 122, and a detection time 123.
The beacon transmitter ID 121 is identification information that uniquely identifies the beacon transmitter 101 possessed by the medical staff in the entire detection system 100A. The beacon transmitter ID 121 is also medical person identification information that uniquely identifies the medical person who possesses the beacon transmitter 101 in the entire detection system 100A.
The beacon receiver ID 122 is identification information that uniquely identifies the beacon receiver 102 installed in a predetermined area in a predetermined facility (for example, hospital A) in the entire detection system 100A. The beacon receiver ID 122 is also area identification information that uniquely identifies the area in which the beacon receiver 102 is installed in the entire detection system 100A. The beacon receiver ID 122 can identify the facility where the beacon receiver 102 is installed and also identify the area within the facility.
The detection time 123 is information indicating, for example, the time when the detection signal acquisition device 110 receives a signal including the beacon transmitter ID 121 and the beacon receiver ID 122 from the beacon receiver 102. Alternatively, the detection time 123 may be information indicating the time when the beacon receiver 102 receives the beacon signal from the beacon transmitter 101.

The detection signal acquisition device 110 may transmit the detection signal 120 to the attendance time determination device 200 each time a signal including the beacon transmitter ID and the beacon receiver ID is received from the beacon receiver 102, or may receive the signal. The detection time is added to the beacon transmitter ID and the beacon receiver ID, and the detection time is temporarily stored in the storage unit. You may send it.
Further, the detection signal acquisition device 110 may not be provided, and the beacon receiver 102 may generate a detection signal 120 and transmit the generated detection signal 120 to the attendance time determination device 200.
The beacon transmitter ID 121 is an example of the transmitter identification information of the present invention, and the beacon receiver ID 122 is an example of the receiver identification information of the present invention.

FIG. 4 shows a second example 100B of the configuration of the detection system 100.
The detection system 100B includes a beacon transmitter 131, a beacon receiver 132, and a detection signal acquisition device 110. The detection system 100B differs from the detection system 100A in that a plurality of beacon transmitters 131 are installed in a predetermined facility (for example, hospital A), and a medical staff possesses the beacon transmitter 132. The detection signal acquisition device 110 of the detection system 100B has almost the same configuration as that included in the detection system 100A.
The beacon receiver 132 is connected to the network 10 by wire or wirelessly. Data can be transmitted from the beacon receiver 132 to the detection signal acquisition device 110 via the network 10.

The beacon transmitter 131 is installed at each entrance / exit of a predetermined facility (for example, Hospital A) and at each room in the facility. The beacon transmitter 131 periodically transmits a beacon signal by the BLE method. The beacon signal includes a beacon transmitter ID. The beacon transmitter ID is identification information that uniquely identifies each beacon transmitter 131 in the entire detection system 100B.

The beacon receiver 132 is individually possessed by an individual medical professional. When the beacon receiver 132 detects the beacon signal within the communicable range, it receives the beacon signal and acquires the beacon transmitter ID. The beacon receiver 132 stores a beacon receiver ID for uniquely identifying itself in the entire detection system 100B in its storage unit. The beacon receiver ID is also medical person identification information for uniquely identifying the medical person who possesses each beacon receiver 132 in the entire detection system 100B. When the beacon receiver 132 receives the beacon signal, it transmits a signal including the beacon transmitter ID and the beacon receiver ID to the detection signal acquisition device 110.
The beacon receiver 132 may be a smart phone, a mobile phone, a tablet, a notebook computer, or the like.

When the detection signal acquisition device 110 receives a signal including the beacon transmitter ID and the beacon receiver ID from the beacon receiver 132, the detection signal acquisition device 110 repeatedly generates the detection signal 140 shown in FIG. 5, and determines the generated detection signal 140 at the time of leaving work. It is transmitted to the device 200. The detection signal 140 includes a beacon transmitter ID 141, a beacon receiver ID 142, and a detection time 143.
The beacon transmitter ID 141 is identification information that uniquely identifies the beacon transmitter 131 installed in a predetermined area in a predetermined facility (for example, hospital A) in the entire detection system 100B. The beacon transmitter ID 141 is also area identification information that uniquely identifies the area in which the beacon transmitter 131 is installed in the entire detection system 100B. The beacon transmitter ID 141 can identify the facility where the beacon transmitter 131 is installed and also identify the area within the facility.
The beacon receiver ID 142 is identification information that uniquely identifies the beacon receiver 132 possessed by the medical staff in the entire detection system 100B. The beacon receiver ID 142 is also medical person identification information that uniquely identifies the medical person who possesses the beacon receiver 132 in the entire detection system 100B.
The detection time 143 is information indicating, for example, the time when the detection signal acquisition device 110 receives a signal including the beacon transmitter ID 141 and the beacon receiver ID 142 from the beacon receiver 132. Alternatively, the detection time 143 may be information indicating the time when the beacon receiver 132 receives the beacon signal from the beacon transmitter 131.

The detection signal acquisition device 110 may transmit the detection signal 140 to the attendance time determination device 200 each time a signal including the beacon transmitter ID and the beacon receiver ID is received from the beacon receiver 132, or may receive the signal. The detection time is added to the beacon transmitter ID and the beacon receiver ID, and the detection time is temporarily stored in the storage unit. You may send it.
Further, the detection signal acquisition device 110 may be omitted, and the beacon receiver 132 may generate a detection signal 140 and transmit the generated detection signal 140 to the attendance time determination device 200.
The beacon transmitter ID 141 is an example of the transmitter identification information of the present invention, and the beacon receiver ID 142 is an example of the receiver identification information of the present invention.

FIG. 6 shows a third example 100C of the configuration of the detection system 100.
The detection system 100C has an RF tag 151 and an RF tag reader 152. The RF tag reader 152 is connected to the network 10 wirelessly or by wire.
The RF tag 151 is possessed by each individual medical professional. The RF tag 151 is, for example, a passive tag in the UHF band (920 MHz band). A tag ID is attached to the RF tag 151. The tag ID is identification information that uniquely identifies the RF tag 151 in the entire detection system 100C. The tag ID is also medical person identification information that uniquely identifies the medical person who possesses each RF tag 151 in the entire detection system 100C.
The RF tag reader 152 is installed at each entrance / exit of a predetermined facility (for example, Hospital A) or at each room in the facility. The RF tag reader 152 stores a reader ID for uniquely identifying itself in the entire detection system 100C in its storage unit. The RF tag reader 152 periodically and repeatedly transmits radio waves. When the RF tag 151 receives a radio wave from the RF tag reader 152, it generates electric power to operate, and transmits a tag signal including a tag ID to the RF tag reader 152. When the RF tag reader 152 receives the tag signal, it generates a detection signal 160 (see FIG. 7) and transmits the generated detection signal 160 to the attendance time determination device 200.
The distance that the RF tag reader 152 and the RF tag 151 can communicate with each other is about 6 m.

As shown in FIG. 7, the detection signal 160 includes a tag ID 161, a reader ID 162, and a detection time 163.
The tag ID 161 is identification information that uniquely identifies the RF tag 151 possessed by the medical staff in the entire detection system 100C. The tag ID 161 is also medical person identification information that uniquely identifies the medical person who possesses the RF tag 151 in the entire detection system 100C.
The reader ID 162 is identification information that uniquely identifies the RF tag reader 152 installed in a predetermined area in a predetermined facility (for example, hospital A) in the entire detection system 100C. The reader ID 162 is also area identification information that uniquely identifies the area in which the RF tag reader 152 is installed in the entire detection system 100C. The reader ID 162 can identify the facility where the RF tag reader 152 is installed and also identify the area within the facility.
The detection time 163 is information indicating, for example, the time when the RF tag reader 152 receives the tag signal from the RF tag 151.

Although the RF tag 151 is a passive tag in the above, the RF tag 151 cannot receive the radio wave of the RF tag reader 152 depending on the angle between the radio wave transmitted by the RF tag reader 152 and the RF tag 151. 151 may not be able to transmit the tag signal. Therefore, the installation location of the RF tag reader 152 is limited.
Further, for example, the STAR system of Mojix Inc. in the United States reads a tag signal in a wide range from a passive tag in the UHF band (920 Hz band) by separating the transmitter for supplying power to the RF tag and the receiver of the tag signal. It is possible. In the detection system 100C, the transmitter for supplying power to the RF tag and the receiver of the tag signal may be separated.
Further, the RF tag 151 may be an active tag or a semi-active tag instead of a passive tag.
The RF tag 151 is an example of the transmitter of the present invention, and the tag ID 161 is an example of the transmitter identification information of the present invention. Further, the RF tag reader 152 is an example of the receiver of the present invention, and the reader ID 162 is an example of the receiver identification information of the present invention.

FIG. 8 shows an example of the configuration of the leave time determination device 200.
The leave time determination device 200 includes a CPU, a main memory composed of RAM and the like, and a storage unit 250 composed of a hard disk and the like. The leaving time determination device 200 can be realized by a computer, for example. Further, the leaving time determination device 200 can be realized by, for example, cloud computing.
The storage unit 250 of the leaving time determination device 200 stores a medical staff table 260, a stay facility table 270, and an leaving time determination program 290.
The CPU of the leaving time determination device 200 reads the leaving time determination program 290 from the storage unit 250 into the main memory and executes it, so that the detection unit 210, the undetected time zone determination unit 220, the departure time determination unit 230, and the attendance time are attended. The functions of the time determination unit 240 and the output unit 245 are realized.

FIG. 9 shows an example of the medical staff table 260.
The medical staff information is registered in the medical staff table 260. The medical staff information includes a medical staff ID 261, a medical staff name 262, a facility name 263, and a facility ID 264.
The medical person ID 261 is identification information that uniquely identifies the medical person in the entire detection system 100A. In the case of the detection system 100A of FIG. 2, the medical person ID 261 corresponds to the beacon transmitter ID 121 included in the detection signal 120 of FIG.
The medical person name 262 is the name of the medical person who possesses the beacon transmitter 101.
The facility name 263 is the name of the facility where the medical staff works.
The facility ID 264 is identification information that uniquely identifies the facility at the office in the entire detection system 100A.

Note that FIG. 9 is an example in which the detection system 100 is the detection system 100A of FIG.
When the detection system 100 is the detection system 100B of FIG. 4, the medical person ID 261 corresponds to the beacon receiver ID 142 included in the detection signal 140 of FIG. The medical person name 262 is the name of the medical person who possesses the beacon receiver 132.
Further, when the detection system 100 is the detection system 100C of FIG. 6, the medical person ID 261 corresponds to the tag ID 161 included in the detection signal 160 of FIG. 7. The medical person name 262 is the name of the medical person who possesses the RF tag 151.

FIG. 10 shows an example of the accommodation facility table 270.
The accommodation facility information is registered in the accommodation facility table 270. The accommodation facility information includes the area ID 271, the facility name 272, the facility ID 273, and the area name 274.
The area ID 271 is identification information that uniquely identifies a predetermined area in a predetermined facility (for example, hospital A) in the entire detection system 100A. In the case of the detection system 100A of FIG. 2, the area ID 271 corresponds to the beacon receiver ID 122 included in the detection signal 120 of FIG. The area ID 271 can also identify the facility where the beacon receiver 102 is installed.
The facility name 272 is the name of the facility including the area identified by the area ID 271.
The facility ID 273 is facility identification information that uniquely identifies the facility including the area identified by the area ID 271 in the entire detection system 100A.
The area name 274 is the name of the area identified by the area ID 271.

Note that FIG. 10 is an example in which the detection system 100 is the detection system 100A of FIG.
When the detection system 100 is the detection system 100B of FIG. 4, the area ID 271 corresponds to the beacon transmitter ID 141 included in the detection signal 140 of FIG. The area ID 271 is identification information that uniquely identifies a predetermined area in a predetermined facility (for example, hospital A) in the entire detection system 100B. The facility ID 273 is facility identification information that uniquely identifies the facility including the area identified by the area ID 271 in the entire detection system 100B.
Further, when the detection system 100 is the detection system 100C of FIG. 6, the area ID 271 corresponds to the reader ID 162 included in the detection signal 160 of FIG. 7. The area ID 271 is identification information that uniquely identifies a predetermined area in a predetermined facility (for example, hospital A) in the entire detection system 100C. The facility ID 273 is facility identification information that uniquely identifies the facility including the area identified by the area ID 271 in the entire detection system 100C.

The details of each part of the leaving time determination device 200 will be described below. Hereinafter, the detection system 100A of FIG. 2 will be described as an example, but the same applies to the detection system 100B of FIG. 4 and the detection system 100C of FIG.
When the detection unit 210 receives the detection signal transmitted from the detection system 100A, the detection unit 210 identifies and acquires the detection time 123 included in the detection signal 120 as the detection time.
Even if the detection unit 210 specifies and acquires the detection signal 120 transmitted from the detection system 100A instead of the detection time 123 included in the detection signal 120, the time received by the attendance time determination device 200 is specified as the detection time. good.

Next, the detection unit 210 searches the medical staff table 260 using the beacon transmitter ID 121 included in the detection signal 120 as a key, acquires medical staff information including the beacon transmitter ID 121, and possesses the beacon transmitter 101. Identify the medical staff you are in. Further, the detection unit 210 searches the accommodation facility table 260 using the beacon receiver ID 122 included in the detection signal 120 as a key, acquires the accommodation facility information including the beacon receiver ID 122, and the facility included in the acquired accommodation facility information. The facility where the medical staff is staying is identified by the name 272 and the facility ID 273.

The detection unit 210 creates and acquires stay information 280 when the facility specified to be staying by the medical staff is the facility where the medical staff works. That is, the detection unit 210 first acquires the facility ID 264 from the medical staff information searched when the medical staff table 260 is searched using the beacon transmitter ID 121 as a key. Then, the detection unit 210 creates and acquires the stay information 280 when the facility ID 264 matches the facility ID 273 acquired when the facility ID 264 searches the stay facility table 270 using the beacon receiver ID 122 as a key.

As shown in FIG. 11, the stay information 280 includes the medical staff ID 281, the facility ID 282, and the detection time 283.
The medical person ID 281 is identification information that uniquely identifies the medical person in the entire detection system 100A. The medical staff ID 281 corresponds to the medical staff ID 261 included in the medical staff information stored in the medical staff table 260 in FIG.
The facility ID 282 is facility identification information that uniquely identifies the facility in the entire detection system 100A. The facility ID 282 corresponds to the facility ID 273 included in the accommodation facility information stored in the accommodation facility table 270 of FIG.
The detection time 283 is, for example, the detection time 123 included in the detection signal 120.

Next, a method of determining the leaving time and the attending time in the present embodiment will be described.
The conditions for determining the leaving time and the attending time in the present embodiment are that the interval between the leaving time and the attending time is equal to or longer than the predetermined leaving determination time, and the attending time exceeds 24:00.
The medical staff may return to the facility by on-call immediately after leaving work, or may take a short break outside the facility and return to the facility. It is not desirable to determine the time of leaving work and the time of going to work by going out for such a short time.
In addition, there may be an area in the facility where the beacon receiver 102 is not installed, such as a break room. It is not desirable for the medical staff to stay in such an area for a short period of time and determine the time of leaving and going to work when returning to the area where the beacon receiver 102 is installed in the facility.
In order to prevent the leaving time and the attending time from being determined by going out for a short time or taking a break, in the present embodiment, it is determined that the interval between the leaving time and the attending time is equal to or longer than the leaving determination time. It is one of the conditions for determining the time.
The leave determination time is an example of a predetermined time in the present invention.

FIG. 12 shows a first example of leaving time and working time.
FIG. 12 shows an example in which the medical staff once left the office at 19:00, was called on-call at 23:30, worked until 3:00 am, left the office again, and went to work at 8:00 am. In this example, the leave determination time is 3 hours.
In this first example, the interval between 3:00 am and 8:00 am is 5 hours, which is longer than the leave determination time. And the end of the time zone is 8 o'clock, which is past 24:00. The time zone from 3:00 am to 8:00 am satisfies the determination conditions of the leaving time and the attending time in the present embodiment. Therefore, it is determined that 3:00 am is the time to leave work and 8:00 am is the time to go to work.
In the time zone from 19:00 to 23:30, the interval is 4 hours and 30 minutes, which is longer than the time for determining leaving work. However, the end of that time zone is 23:30, before 24:00. This time zone does not satisfy the conditions of leaving time and working time in the present embodiment.

The vertical dashed line in FIG. 12 indicates the stay information 280. The vertical broken line is drawn at the position corresponding to the detection time 283 included in the stay information 280. Stay information 280 is acquired while the medical staff is staying at the facility. Even if the beacon receiver 102 is located within a distance where the beacon signal of the beacon transmitter 101 can be received, the beacon receiver 102 may make a mistake in receiving the beacon signal. Therefore, the interval of stay information 280 may be slightly different. In the present embodiment, even if the stay information 280 is slightly spaced apart, it is considered that a series of stay information 280 has been continuously acquired based on the detection time 283 included in the stay information 280 of the medical staff. Is called the detection time zone. The time zone in which the series of stay information 280 included in the detection time zone starts at the time when the stay information 280 is interrupted and the stay information 280 cannot be acquired for the time required for leaving work or more is referred to as an undetected time zone.
In the example of FIG. 12, the detection time zone is from 23:30 to 3:00 am and after 8:00 am until 19:00. The undetected time zone is from 19:00 to 23:30 and from 3:00 am to 8:00 am.
The time when the second undetected time zone starts (working time) is 3:00 am, and the time when it ends (working time) is 8:00 am. There is no stay information between the start and end times of the undetected time zone. Therefore, the time at which the undetected time zone ends is the detection time included in the stay information acquired by the detection unit 210 next to the stay information acquired by the detection unit 210 at the time when the undetected time zone starts.

In order to realize the above, the undetected time zone determination unit 220, the leaving time determination unit 230, the attendance time determination unit 240, and the output unit 245 operate as follows, respectively.
The undetected time zone determination unit 220 is the time when a series of stay information 280 deemed to have been continuously acquired based on the detection time 283 included in the medical staff's stay information 280 acquired by the detection unit 210 is interrupted ( The time zone that starts from the end of the detection time zone) and the stay information could not be acquired for more than the time when the attendance is judged is determined as the undetected time zone. The leave determination time is an example of a predetermined time in the present invention.
The leaving time determination unit 230 selects one undetected time zone whose end time exceeds 24:00 from the undetected time zones determined by the undetected time zone determination unit 220, and the selected undetected time zone is selected. The time when the time zone starts is determined as the leaving time of the medical staff.
The time at which the undetected time zone selected by the leaving time determination unit 230 ends is the detection time included in the stay information 280 when the stay information 280 is acquired by the detection unit 210 next to the stay information 280 at the leaving time. It is 283. In this case, the attendance time determination unit 240 determines the time at which the selected undetected time zone ends as the attendance time.

Each medical staff and the manager of each facility have their own terminals. The terminal is a smart phone, a mobile phone, a tablet, a personal computer, or the like. The output unit 245 can transmit the leaving time and the attending time determined by the leaving time determining unit 230 and the attending time determining unit 240 to the terminal of each medical staff and / or the terminal of the manager of each facility. When the terminal receives the leaving time and the attending time transmitted from the leaving time determining device 200, the terminal displays, for example, the leaving time and the attending time on its display or the like.

FIG. 13 shows a second example of leaving time and working time.
FIG. 13 is an example of a case where the medical staff takes a day off from work the day after the day shift. In the second example of FIG. 13, after leaving work at 19:00 the day before, the work time is unknown until the medical staff goes to work at a later date. In this case, the leaving time determining unit 230 and the attending time determining unit 240 determine, for example, the leaving time and the attending time when the medical staff goes to work at a later date. The leaving time is determined to be 19:00.
However, in this case, as shown in FIG. 13, the leaving time determination unit 230 may determine the leaving time by regarding the predetermined standard attendance time as the time when the undetected time zone ends. The standard work time is a time that serves as a reference for determining early departure or late arrival. The standard work time may be set for all medical staff working at the facility as a rule of the facility, or may be set for each medical staff in consideration of the working conditions of each medical staff. FIG. 13 is an example when 8:00 am is the standard work time. The leaving time determination unit determines, for example, the leaving time at 8:00 am as 19:00.

FIG. 14 shows a third example of leaving time and attending time.
FIG. 14 is an example of a case where a medical staff works continuously on duty on a daily basis. In the third example of FIG. 14, there is no undetected time zone between the start time of the shift and 8:00 am (standard attendance time). In this case, the leaving time determining unit 230 and the attending time determining unit 240 determine the standard attending time as the leaving time of the previous day and the working time of the current sunrise, respectively. In the example of FIG. 14, both the leaving time and the attending time are determined to be 8:00 am.

FIG. 15 shows an example of three undetected time zones that occur when the leave determination time is set to one hour.
As shown in FIG. 15, the undetected time zone determination unit 220 may determine a plurality of time zones as undetected time zones. FIG. 15 shows an example in which a medical staff leaves work at 23:00, is called on-call at 24:30 and leaves work at 3:00 am, and then is called again on-call at 5 am and leaves work at 7:00 am. be. The undetected time zone determination unit 220 determines the three time zones of 23:00 to 24:30, 3:00 am to 5:00 am, and 7:00 am to 8:00 am as undetected time zones.
In this case, the leaving time determination unit 230 can, for example, select the earliest (earliest in time) undetected time zone to determine the leaving time. Further, the leaving time determination unit 230 can, for example, select the longest undetected time zone in terms of time and determine the leaving time. Further, the leaving time determination unit 230 can, for example, select the latest undetected time zone (latest in time) in time and determine the leaving time.

FIG. 15A is an example in which the leaving time determination unit 230 selects the earliest undetected time zone in terms of time. The leaving time determination unit 230 selects the time zone from 23:00 to 24:30 as the undetected time zone, and determines 23:00 as the leaving time. At this time, the attendance time determination unit 240 determines 24:30 as the attendance time.
FIG. 15B is an example in which the leaving time determination unit 230 selects the longest undetected time zone in terms of time. 3:00 am to 5:00 am is longer than the other two undetected time zones. Therefore, the leaving time determination unit 230 selects the time zone from 3:00 am to 5:00 am as the undetected time zone, and determines 3:00 am as the leaving time. At this time, the work time determination unit 240 determines 5 am as the work time.
FIG. 15C is an example in which the leaving time determination unit 230 selects the latest undetected time zone in terms of time. The leaving time determination unit 230 selects the time zone from 7:00 am to 8:00 am as the undetected time zone, and determines 7:00 am as the leaving time. At this time, the work time determination unit 240 determines 8:00 am as the work time.

If the leaving time determination unit 230 determines the leaving time when the undetected time zone ends, it takes time until the leaving time is determined if the undetected time zone is long. Therefore, it is conceivable that the leaving time determination unit 230 determines the leaving time of the medical staff when it can be determined that the time when the undetected time zone ends exceeds 24:00.
For example, when the leave determination time is 3 hours, 24 o'clock-leave determination time = 21:00. As shown in FIG. 16A, when the start of the undetected time zone is before 21:00 (24 o'clock-leave determination time), the leaving time determination unit 230 ends the undetected time zone after 24:00. The time of leaving work is determined by determining whether or not the person is working at 24:00. Then, the attendance time determination unit 240 determines the attendance time at the end of the undetected time zone. In the example of FIG. 16A, the determination time of the leaving time is 24:00, the leaving time is 20:00, and the attending time is 3:00 am.
On the other hand, as shown in FIG. 16B, when the start of the undetected time zone is after 21:00 (24:00-leave determination time), the leaving time determination unit 230 starts from the start of the undetected time zone. The time of leaving work is determined when the time for judging leaving work has elapsed. Then, the attendance time determination unit 240 determines the attendance time at the end of the undetected time zone. In the example of FIG. 16B, the determination time of the leaving time is 2:00 am, the leaving time is 23:00, and the attending time is 5:00 am.

Further, when the leaving time determination unit 230 selects the longest undetected time zone in time as shown in FIG. 15B, and when the leaving time determination unit 230 is the latest in time as shown in FIG. 15C. When the detection time zone is selected, the leaving time and the attending time cannot be determined until all the undetected time zones are determined (for example, until the standard attendance time has passed). However, when the terminal of the medical staff or the terminal of the manager of the facility displays the departure time and the arrival time, it is desirable to display these as soon as possible.
Therefore, every time the undetected time zone determination unit 220 determines the undetected time zone, the leave time determination unit 230 and the attendance time determination unit 240 obtain the provisional departure time and the provisional attendance time, respectively, and the output unit 245 sends the terminal to the terminal. It is conceivable to send them. The final leaving time and attending time are fixed to, for example, the standard attending time, and the output unit 245 transmits them to the terminal at the standard attending time.
For example, in the example of FIG. 15C, at 24:30, the leaving time is displayed at 23:00 and the attending time is displayed at 24:30 on the terminal. From 3:00 am to 5:00 am, the display of the departure time and the arrival time is turned off on the terminal. Then, the departure time is displayed as 3:00 am and the work time is displayed as 5:00 am on the terminal at 5:00 am. From 7:00 am to 8:00 am, the display of the departure time and the arrival time is turned off on the terminal. Finally, it is confirmed that the leaving time is 7:00 am and the commuting time is 8:00 am at 8:00 am, and they are displayed on the terminal.
Similarly, even when the leaving time determination unit 230 selects the longest undetected time zone in terms of time as shown in FIG. 15B, the temporary leaving time is until the leaving time and the attending time are finally determined. And the temporary work time can be displayed on the terminal.

FIG. 17 shows an example of the flow of the leave time determination process in the leave time determination device 200.
Upon receiving the detection signal transmitted from the detection system 100, the detection unit 210 specifies the detection time of the detection signal (S1). Next, the detection unit 210 searches the medical staff table 260 using the beacon transmitter ID 121 included in the detection signal 120 as a key, acquires medical staff information including the beacon transmitter ID 121, and possesses the beacon transmitter 101. Identify the medical staff (S2). Further, the detection unit 210 searches the accommodation facility table 260 using the beacon receiver ID 122 included in the detection signal 120 as a key, acquires the accommodation facility information including the beacon receiver ID 122, and the facility included in the acquired accommodation facility information. The facility where the medical staff is staying is specified by the name 272 and the facility ID 273 (S3). The detection unit 210 acquires the facility ID 264 from the medical staff information searched in step S2 (S4). Then, if the facility ID 273 acquired in step S3 and the facility ID 264 acquired in step S4 match (S5: Yes), the detection unit 210 creates and acquires the stay information 280 (S6).
On the other hand, if the facility ID 273 and the facility ID 264 do not match (S5: No), for example, the process returns to step S1 and waits for the reception of the next detection signal.

Subsequently, the undetected time zone determination unit 220 interrupts a series of stay information 280 that is considered to have been continuously acquired based on the detection time 283 included in the medical staff's stay information 280 acquired by the detection unit 210. The time zone in which the stay information cannot be acquired for the time (the end of the detection time zone) and the time for leaving the office is determined is determined as the undetected time zone (S7).
Next, the leaving time determination unit 230 selects and selects one undetected time zone whose end time exceeds 24:00 from the undetected time zones determined by the undetected time zone determination unit 220. The time when the undetected time zone starts is determined as the leaving time of the medical staff (S8).
Next, when the time at which the undetected time zone selected by the leaving time determination unit 230 ends is the detection time 283 included in the stay information 280 acquired by the detection unit 210 next to the stay information 280 at the leaving time. The attendance time determination unit 240 determines the time at which the selected undetected time zone ends as the attendance time (S9).

The leaving time determination device 200 operates in the same manner as when there is only one work place, even when there are a plurality of work places of the medical staff.
18 and 19 show an example of a medical staff table 260 and a stay facility table 270 when a medical staff (Takao Yamada) works at two facilities, Hospital A and Hospital B.
For example, Takao Yamada, whose medical professional ID 261 = 6993, has a main business destination of hospital A and a concurrent post of hospital B. Takao Yamada provides medical care at Hospital A and Hospital B. Beacon receivers 102 are installed in hospitals A and B. As shown in FIG. 18, in the medical staff information of Takao Yamada of the medical staff table 260, facility name 263 = A hospital and facility ID 264 = 1643, and facility name 263 = B hospital and facility ID 264 = 5172 are set. .. In this case, as shown in FIG. 20, when Takao Yamada conducts a medical examination at Hospital A in the morning, moves to Hospital B and conducts a medical examination at Hospital B from 14:00 to 19:00, the leaving time determination unit 230 is 19. Determine the time as the time of leaving work.
In this way, if the facility manager wants to know the leaving time of Takao Yamada through the work of both Hospital A, where he is working, and Hospital B, where he is concurrently working, he / she can use the medical staff information of Takao Yamada in the medical staff table 260. The facility name 263 and facility ID 264 = 1643 of hospital A and the facility name 263 and facility ID 264 = 5172 of hospital B may be set.

It should be noted that a method of identifying a medical staff's accommodation facility using sound waves is known. In this method, for example, a beacon of a high-frequency sound wave is transmitted from a speaker and received by a microphone to identify a medical staff's accommodation facility. In the above-described embodiment, a method using a BLE-type beacon and a method using RFID are shown as a method for specifying the accommodation facility of the medical staff, but in the present invention, any method can be used to specify the accommodation facility for the medical staff. , Another method such as a method using a sound wave can also be used. In the case of the method using sound waves, the speaker is the transmitter of the present invention and the microphone is the receiver of the present invention.

As described above, according to the present invention, it is possible to determine the leaving time of a medical worker who may be called on-call and work over a date.
Further, in the present invention, one of the conditions for determining the leaving time and the attending time is that the interval between the leaving time and the attending time is equal to or longer than the leaving determination time. Therefore, according to the present invention, it is possible to prevent the leaving time and the working time from being determined by going out for a short time, taking a break, or the like.

Further, according to the leaving time determination system 1, it is possible to easily obtain each staying time during which the medical staff has stayed at a plurality of facilities (for example, the main office and the concurrent office). The detection unit 210 acquires stay information 280 for each facility while the medical staff stays at each facility. By obtaining the detection time zone for each facility based on the stay information 280 for each facility, the stay time for each facility can be obtained. In addition, the total staying time can be calculated by totaling the staying time for each facility.
For example, according to the leave time determination system 1, when the medical staff's main business destination is hospital A and the concurrent post is hospital B, the medical staff is calculated for each staying time at hospital A and hospital B. It can be determined that the medical staff has left the office only by the stay information 280 of the hospital A.

Although the embodiments of the present invention have been described above, various modifications and combinations required for convenience in design or development and other factors are described in the inventions and embodiments of the invention described in the claims. It is included in the scope of the invention corresponding to the specific example.

1 ... Leave time determination system, 10 ... Network, 100, 100A, 100B, 100C ... Detection system, 101 ... Beacon transmitter, 102 ... Beacon receiver, 110 ... Detection signal acquisition device, 120 ... Detection signal, 131 ... Beacon transmission Machine, 132 ... Beacon receiver, 140 ... Detection signal, 151 ... RF tag, 152 ... RF tag reader, 160 ... Detection signal, 200 ... Leave time determination device, 210 ... Detection unit, 220 ... Undetected time zone determination unit , 230 ... Attendance time determination unit, 240 ... Attendance time determination unit, 245 ... Output unit, 250 ... Storage unit, 260 ... Medical staff table, 270 ... Stay facility table, 280 ... Stay information, 290 ... Attendance time determination program

Claims (9)

It is an attendance time determination system equipped with a detection system and an attendance time determination device.
The detection system has a transmitter and a receiver, one owned by a medical professional and the other installed in one or more predetermined facilities, and the medical professional is one of the predetermined facilities. A detection signal including the transmitter identification information for identifying the transmitter and the receiver identification information for identifying the receiver is repeatedly generated while staying at the receiver, and the generated detection signal is transmitted.
The leaving time determination device
When the detection signal transmitted from the detection system is received, the detection time of the detection signal is specified, and the medical staff and the medical staff stay based on the transmitter identification information and the receiver identification information included in the detection signal. A detection unit that identifies the specified facility and acquires the stay information of the medical staff about the specified facility, including the detection time.
A series of stay information deemed to have been continuously acquired based on the detection time included in the stay information of the medical staff acquired by the detection unit starts at the time when the stay information is interrupted, and the stay information is acquired for a predetermined time or longer. The undetected time zone determination unit that determines the undetected time zone as the undetected time zone,
From the undetected time zones determined by the undetected time zone determination unit, one undetected time zone whose ending time exceeds 24:00 is selected, and the time at which the selected undetected time zone starts is set. The leaving time determination unit that determines the leaving time of the medical staff,
To prepare
A system for determining the time of leaving work. If the start of the undetected time zone is before the time obtained by subtracting the predetermined time from 24:00, the leaving time determination unit determines whether or not the ending time exceeds 24:00 and leaves the office. When the time is determined, on the other hand, if the start of the undetected time zone is later than the time obtained by subtracting the predetermined time from 24:00, the employee leaves the office when the predetermined time has elapsed from the start of the undetected time zone. The leave time determination system according to claim 1, wherein the time is determined. The time of leaving work according to claim 1 or 2, wherein the detection unit acquires stay information when the predetermined facility specified by the medical staff is the designated work facility of the medical staff. Decision system. If the time at which the undetected time zone selected by the leaving time determination unit ends is the detection time included in the stay information acquired by the detection unit next to the stay information at the leaving time, the ending time is set to work. The leave time determination system according to any one of claims 1 to 3, further comprising an attendance time determination unit for determining the time. The leave time determination system according to any one of claims 1 to 4, wherein the leave time determination unit selects the earliest undetected time zone in terms of time. The leave time determination system according to any one of claims 1 to 4, wherein the leave time determination unit selects the latest undetected time zone in terms of time. The leave time determination system according to any one of claims 1 to 4, wherein the leave time determination unit selects the longest undetected time zone in terms of time. One is possessed by a medical professional and the other has a transmitter and a receiver installed in one or more predetermined facilities, and the medical professional is staying in one of the predetermined facilities. When a detection signal is received from a detection system that repeatedly generates a detection signal including transmitter identification information that identifies the transmitter and receiver identification information that identifies the receiver, and transmits the generated detection signal. , The detection time of the detection signal is specified, and the medical staff and the predetermined facility where the medical staff is staying are specified based on the transmitter identification information and the receiver identification information included in the detection signal. A detection unit that acquires stay information about the predetermined facility of the medical staff, including the detection time,
A series of stay information deemed to have been continuously acquired based on the detection time included in the stay information of the medical staff acquired by the detection unit starts at the time when the stay information is interrupted, and the stay information is acquired for a predetermined time or longer. The undetected time zone determination unit that determines the undetected time zone as the undetected time zone,
From the undetected time zones determined by the undetected time zone determination unit, one undetected time zone whose ending time exceeds 24:00 is selected, and the time at which the selected undetected time zone starts is set. The leaving time determination unit that determines the leaving time of the medical staff,
A device for determining the time of leaving work. Computer,
One is possessed by a medical professional and the other has a transmitter and a receiver installed in one or more predetermined facilities, and the medical professional is staying in one of the predetermined facilities. When a detection signal is received from a detection system that repeatedly generates a detection signal including transmitter identification information that identifies the transmitter and receiver identification information that identifies the receiver, and transmits the generated detection signal. , The detection time of the detection signal is specified, and the medical staff and the predetermined facility where the medical staff is staying are specified based on the transmitter identification information and the receiver identification information included in the detection signal. Detection means for acquiring stay information about the predetermined facility of the medical staff, including the detection time,
A series of stay information deemed to have been continuously acquired based on the detection time included in the stay information of the medical staff acquired by the detection means starts at the time when the stay information is interrupted, and the stay information is acquired for a predetermined time or longer. Undetected time zone determining means for determining the undetected time zone as the undetected time zone,
From the undetected time zones determined by the undetected time zone determining means, one undetected time zone whose ending time exceeds 24:00 is selected, and the time at which the selected undetected time zone starts is set. A means for determining the leaving time of the medical person, which is determined as the leaving time of the medical person.
A leave time determination program to function as.

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