KR101893929B1 - Location management method for object in hospital - Google Patents

Abstract

The present invention relates to a method and system for managing the position of an object defined by at least one of a medical staff, a patient, and a medical instrument moving within a hospital building.
The method includes defining N cells (N is an integer greater than 1) as an area specified in a hospital building, registering a unique ID for each cell in advance, and determining whether a transmitter attached to an object moves in a predetermined radio wave When a receiver receives a signal from a transmitter and transmits the signal to a server, the server periodically transmits a signal including an RSSI value and an ID of the transmitter, Which cell zone is located in which cell area.

Description

TECHNICAL FIELD [0001] The present invention relates to an object location management method and system in a hospital building,

The present invention relates to a healthcare system, and more particularly, to a smart hospital construction method.

The hospital is busy. There are serious or emergency patients, medical staff to treat patients, and various medical devices for diagnosis and treatment. People move within the hospital by their own purposes or by personal intent. In addition, for many patients, planned medical activities and patient movements will change the location of the medical device. Even in this situation and environment, all busyness in the hospital should be accurately and quickly identified and controlled.

However, the larger the hospital, the harder it is to grasp and control. Although it may be possible to grasp the medical staff and the patient by the communication means such as the smart phone, the medical staff and the patient do not always have such communication means. In addition, mobile medical devices and equipment are becoming increasingly difficult to quickly identify where they are in the hospital and where they are being used. Of course, it will not usually be a problem. However, if a problem arises it is likely to lead to a serious accident. It is a problem in the hospital that is related to human life.

Recently, advances in and advocacy of healthcare systems are on the rise. In order to improve various medical environments including telemedicine, a complete information system should be implemented within the hospital itself. Failure to properly locate medical personnel, patients, and medical devices within the hospital will reduce confidence in the combined medical services outside the hospital, while increasing concerns.

A variety of indoor positioning techniques known in the art can be used to track and monitor the location of medical devices in hospitals (as do medical staff and patients). Typically, there is a method of using a GPS terminal. However, there is a disadvantage that it can not be used because the satellite signal can not be received indoors. There is a battery problem in particular. However, there is a problem that the received signal strength indicator (RSSI) value is excessively unstable and the precision is poor. In order to use the beacon, Since the transmission is performed again after calculation, the battery use time is very short, which makes it difficult to operate the transceiver to which the object is attached.

The inventors of the present invention have studied for a long time in order to solve this problem, and as a result, they have come to the conclusion that the error problem is fatal and the solution for the error is excessively uneconomical. Therefore, the present invention has been completed after a new idea and challenge deviated from the indoor positioning technology.

[Prior Art Literature]

1. Korean Patent No. 10-1550302

2. Korean Patent Publication No. 10-2015-0107056

3. Korean Patent Publication No. 10-2015-0124926

A basic object of the present invention is to provide a new technology solution that can effectively specify the position of an object moving in a hospital. In order to accomplish this object, the present invention has established a new concept. In order to specify an object location, a physical space in a hospital is structured into a data cell in a system.

On the other hand, it should be taken into consideration that the radio wave is a multilayered hospital building in specifying the position of the object because it can not distinguish between layers. Therefore, a solution to support interlayer discrimination is needed, and it is another object of the present invention to propose such a solution.

The present invention is different from the paradigm of the indoor positioning technique for directly tracking the position of the moving object in real time. The moving device does not calculate the position data, receives signals from a plurality of transmitters, triangulates them, and does not perform positioning. The present invention aims to determine the position of an object in the hospital by simply determining whether or not the object is located. This allows the system to be designed, operated and managed effectively and realistically. This is also included in the object of the present invention.

In the present invention, the term " object " refers to an object to be moved within a hospital, and includes a movable medical device, a patient, and a medical staff.

On the other hand, other unspecified purposes of the present invention will be further considered within the scope of the following detailed description and easily deduced from the effects thereof.

According to an aspect of the present invention, there is provided an object location management system in a hospital building,

A transmitter attached to the object for movement and periodically transmitting a signal with a predetermined propagation intensity;

A set of N (N is an integer greater than 1) cells defined as a specific area in a hospital building, a cell having a unique ID assigned to each cell, a receiver installed in each cell and receiving a signal from the transmitter, and a set of the receivers;

A server connected to the receivers belonging to the receiver set by wire or wireless, the server storing a cell ID and a signal of the transmitter received from the receiver; And

And a data processing unit communicating with the server to specify the position of the object.

Further, in the object location management system in a hospital building according to a preferred embodiment of the present invention, a barometer is installed in the transmitter to transmit the atmospheric pressure information to the receiver so that the server identifies the position of the object, To < / RTI >

In addition, in the object location management system in a hospital building according to a preferred embodiment of the present invention, the object may be selected from at least one of a medical staff, a patient, and a medical instrument.

In the hospital building object location management system according to another preferred embodiment of the present invention, the transmitter is provided with an acceleration sensor and / or a gyro sensor, and the signal transmission period when the transmitter always moves, So that the signal transmission periods are set to be different from each other.

According to another aspect of the present invention, there is provided an object location management system in a hospital building, wherein the transmitter includes a wireless transmission module, and the transmission module includes BLE, UWB, Wi-Fi, Zigbee, Z- , And may be to send the transmitter's identity and radio power strength value (Tx Power) to the receiver.

A second aspect of the present invention is a method for managing the location of an object moving in a hospital building, the method comprising: defining N (N is an integer greater than 1) cells defined as a zone within a hospital building, Registration,

A transmitter that is attached to and moves to an object periodically transmits a signal with a predetermined propagation intensity,

One or more receivers installed in the cell zone receive signals from the transmitter and transmit them to the server,

The data processing unit of the server may identify the position of the transmitter in the hospital building on the basis of the cell ID by using the ID of the transmitter and the previously registered cell ID and signal value in which the receiver is installed, do.

A third aspect of the present invention is a method for managing the position of an object defined by at least one of medical staff, patient and medical equipment moving in a hospital building, 1), registers a unique ID for each cell in advance, and transmits the signal including the radio output intensity value (Tx Power) and the ID of the transmitter periodically When a receiver installed in each cell area receives a signal from the transmitter and transmits the signal to the server, the server determines which cell zone the object is located in using the ID of the receiver, the RSSI value measured by the receiver, and the cell ID And a method for managing an object location in a hospital building.

A fourth aspect of the present invention is a transmitter having a built-in battery for periodically transmitting a signal with a predetermined propagation intensity attached to an object, wherein a motion sensor is installed, and a radio transmitter control unit communicates with a motion sensor Wherein the transmitter transmits signals through the antenna module by controlling the signal transmission period when the transmitter moves and the signal transmission period when the transmitter does not move, to be different from each other.

The effect of the present invention is clear. The present invention is not a concept of precise positioning according to distance, but can easily identify the cell in which the object is located according to the intensity of the signal intensity by dividing the location of the object area or the physical space to be located with each cell. This allows the location of patients, medical personnel, and medical devices on the move within the hospital building to be effectively and economically identified.

On the other hand, even if the effects are not explicitly mentioned here, the effect described in the following specification, which is expected by the technical features of the present invention, and its potential effects are treated as described in the specification of the present invention.

FIG. 1 and FIG. 2 are diagrams showing a basic problem awareness of the present invention and a resolution principle starting from the problem awareness in cartoon form.
3 is a diagram showing an example of the overall system configuration according to a preferred embodiment of the present invention.
4 is a diagram showing the relationship between the cells 5a, 5b, 5c and the receiver 20 in a hospital building according to the present invention.
5 is a diagram showing a main electronic configuration of a transmitter according to a preferred embodiment of the present invention.
6 is a diagram showing the overall process of the method of the present invention.
* The accompanying drawings illustrate examples of the present invention in order to facilitate understanding of the technical idea of the present invention, and thus the scope of the present invention is not limited thereto.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may obscure the subject matter of the present invention.

Fig. 1 shows the basic problem awareness and solution of the inventor in cartoon form. Figs. 1 (a) to 1 (c) show the necessity of specifying the position of an object made in a hospital. The patient is one of the most important objects. In addition to being responsible for the management of the patients, the medical staff should also make timely medical appointments and treatments for the patients. However, if you can not tell where the patient is, it is difficult for the hospital (Fig. 1 (a)). Especially in the case of infectious disease patients, the location of the patients should be managed accurately within the hospital. Likewise, a patient or a caregiver of a patient may urgently seek medical staff (Fig. 1 (b)).

Above all, portable medical devices frequently travel within the hospital for therapeutic or diagnostic purposes or for patient use. Such mobile medical devices include not only devices such as wheelchairs but also various imaging devices, diagnostic devices such as echocardiography devices, automatic urination devices, and other medical aids and articles. It is also necessary to know exactly where these objects are located in the hospital building (Fig. 1 (c)).

The basic spirit of the present invention is as shown in Fig. 1 (d). 1 (a) to 1 (c), the physical space in the hospital building is defined in advance in a plurality of cells, rather than tracking the position of the object itself in real time, , And determines in which cell the object is located. By doing so, it is possible to solve the problem of fatal error and instability of the conventional indoor positioning technique.

However, the principle of simplified resolution is often underestimated. Even if the principle becomes an innovative solution in the real world, it may seem so simple after a brief explanation. A person is understandable, so that a person skilled in the art understands the principle easily by hearing the explanation of others. But understanding and creativity are different. Comprehension is posterior to the original. Creativity, however, is proactive because it suggests principles that have not existed before. The ability to understand is not automatically given the ability to create it. This statement is made in this specification because there is concern that the inventive principles of the present invention may be underestimated. In order to further prevent such anxiety, FIG. 2 compares the conventional idea with the principle of the present invention with a 4-cut cartoon.

It is known to use conventional Wi-Fi strength or to perform indoor positioning using a Bluetooth beacon. Theoretically, anything is said to be indeed indoors, but errors are significant. The received signal strength indicator (RSSI) from the transmitter is collected and measured by triangulation method. However, the RSSI value is greatly influenced by various environmental factors. In addition, it is not economical to build a network by installing a lot of devices in a building to improve precision. There is a technology that communicates with a user's smartphone and locates the smartphone indoors, but there is no need to call a medical staff, a patient, or a person with a smartphone in the hospital.

The present invention is a method of discarding the idea of accurately positioning an object in an object and specifying only which area the object is in. As described above, a physical space in a hospital building is defined in advance by a plurality of cells, and a physical space is dataized by assigning a unique ID to each cell. Then, it matches the RSSI value of the radio wave measured by the receiver with the physical space of the signal sent from the object (the transmitter attached to the object).

The system configuration of the present invention will now be described in more detail. 3 shows an example of a system configuration according to a preferred embodiment of the present invention.

The physical space in the hospital building is divided into a plurality of cells 5 and defined in advance, a unique ID is assigned to each cell 5, and the ID is stored in the server 100. And preferably a receiver 20 is installed in each cell 5. The receiver 20 has a radio wave receiving module in the same manner as a transmitter and communicates with the server through wired or wireless transmission.

While the receiver 20 is understood to be a collection of receivers. The reason for this is that the system of the present invention is completed because a plurality of receivers are assigned to one or more of the registered cell IDs in the actual hospital building. Also, a plurality of receivers may receive signals from one transmitter and simultaneously transmit them to the server 100.

It is preferable that the object 10 is attached to the object 1. The transmitter 10 periodically transmits a signal with a predetermined radio wave intensity. The transmitter 10 can be composed of a radio transmitter of various standards. Further, the transmission frequency of the transmitter 10 can be set in a range of preferably 50 to 1000 ms (Duty cycle), and the transmission distance can be set in a range of preferably 10 to 20 M. The movement of the object (1) is the movement of the transmitter (10). The transmitter 10 moves to a cell 5 somewhere in the hospital building and sends out a signal. Then, the receiver 20 installed in the cell 5 receives the signal.

In a preferred embodiment of the present invention, the signal transmitted from the transmitter 10 and received by the receiver 20 includes the ID of the transmitter 10 and the radio output strength (Tx Power). In the preferred embodiment of the present invention, a Mac address may be used as an ID of the transmitter 10. However, the ID is not limited thereto, and any identifier capable of specifying the transmitter 10 may be used. In another embodiment of the present invention, the signal received from the transmitter 10 and received by the receiver 20 may further include atmospheric pressure information.

The server 100 operates the system of the present invention and processes a series of processes including data storage, processing and communication necessary for its operation. The server 10 may also be configured to include one or more hardware and software equipment. A storage device (not shown) included in the server 100 may store information on the ID of the transmitter 10 and objects recorded thereon. The storage device of the server 100 may also store a predefined cell ID and a receiver ID that matches the predefined cell ID.

In some preferred embodiments, the server 100 may store the cell ID of the received region, the RSSI value received and measured by the receiver, and operate the two databases 110 and 120 in determining the position of the object . The database 110 stores the transmitter ID and the RSSI value collected in real time from the transmitter. The database 110 continuously stores the signal information received from the transmitter. The database 120 stores the position information of the object calculated using the RSSI value stored in the database 110.

In some preferred embodiments, the server 100 may be connected to and communicate with the receivers via a LAN. The data processing unit 150 is installed in the server 100 and calculates the position information of the object. In the preferred embodiment, the location information calculation of the data processing unit 150 is as follows. First, the distance reference value X from the receiver 20 installed in the cell to which the cell ID is assigned is registered in advance. Preferably X = 5m. That is, if the distance from the receiver 20 to the object is within 5 m, it is determined that the object is within the corresponding cell. And obtains the RSSI value (Y dBm) at the X meter through the radio transmission module experiment and also registers it. The data processing unit 150 then compares the RSSI value Z dBM of the corresponding transmitter collected in the server 100 through the receiver 20 and stored in the first database 110, , It is determined that the object is located in the cell if the following expression is satisfied.

Y? Z (Equation 1)

As described above, the data processing unit 150 of the present invention does not determine the relative coordinates through triangulation by using a plurality of beacon modules as in the prior art. Instead, the RSSI value collected through the relationship between the transmitter and the receiver simply indicates whether or not the object has cells .

In another preferred embodiment of the present invention, atmospheric pressure information can be further added. This is because radio waves can not distinguish between layers. The transmitter 20 is provided with a barometer so that the barometric pressure information is sent together with each time a signal is transmitted. In addition, reference pressure information is registered in advance in the server for each layer. Preferably, if the reference pressure information is registered in the range for each layer and the pressure information from the transmitter is included in the reference pressure information range of the specific layer, it can be determined that the object is located in the specific layer. In another preferred embodiment, the layer may be specified by comparing the reference pressure information collected by the building barometer with the barometric pressure information collected from the transmitter by installing a barometer in each building in the building and communicating with the server.

On the other hand, the position information of the object 1 specified through the above system can be visualized through the devices 200 and 201 of the user (manager).

The relationship between the cell 5 and the receiver 20 is further illustrated in Fig. In the present invention, the cell 5 is an area within the hospital building as described above, which is predefined in the system and registered with the server as a cell ID.

The cell may be assigned to a room 5a, such as an in-patient room, a medical office, a treatment room, etc., as shown. The cell may also be a hallway 5b. It may be a stairway. In the case of the corridor cell 5b, it is also possible to distinguish the corridor from the corridor and assign a cell ID to register it. The cell may also be a toilet 5c.

The receiver 20 may be provided for each of the cells 5a, 5b and 5c. The receiver 20 may be installed on a ceiling, a wall surface, or the like. It is also preferable that one receiver 20 is provided for each cell ID. However, the number of the receivers 20 installed per cell ID is plural, and the technical scope of the present invention is not limited. In this case, it is necessary to appropriately change the reference data registered in the server.

5 shows an internal electronic configuration of the transmitter 10 according to some preferred embodiments of the present invention.

The transmitter 10 is preferably comprised of a BLE module in some embodiments. Other embodiments of the present invention may be configured with any one of UWB, Wi-Fi, Zigbee, and Z-wave modules. A control unit 11, an antenna 12, a battery 13, an air pressure sensor 14, and a motion sensor 15 may be included. These internal electronic configurations can be built on top of PCBs and can be made in coin size.

The battery 13 may have a configuration in which one coin cell battery is mounted, and a DC voltage of approximately 1.8 to 3.6 V supplied from the battery 13 is used as an operating voltage.

The air pressure sensor 14 measures the air pressure information of the transmitter 10 as a barometer installed in the transmitter 10 and communicates with the control unit 11. [ The atmospheric pressure information signal measured by the atmospheric pressure sensor 14 is transmitted to the outside through the antenna 12.

Also, in a preferred embodiment, the motion sensor 15 may include a gyro sensor 15a and an acceleration sensor 15b. The gyro sensor 15a measures the angular velocity of the transmitter and the acceleration sensor 15b measures the acceleration of the transmitter to calculate whether the transmitter is moving or not. The motion sensor 15 communicates with the control unit 11 and transmits the measured data to the control unit 11.

The control unit 11 controls the operation of the transmitter. In particular, the control unit 11 preferably includes a wireless communication protocol firmware. SWD signal lines SWDIO and SWCLK for downloading firmware may further be included. The control unit 11 periodically transmits the determined frequency through the antenna 12. [

Also, in a preferred embodiment of the present invention, the control unit 11 may operate in such a manner that the period of communication with the motion sensor 15 and the signal transmission period is changed. For example, if it is determined by the motion sensor 15 that the transmitter is moving, the controller 11 controls the transmitter to transmit a signal every S seconds. On the other hand, if it is determined that the transmitter is stopped by the motion sensor 15, the controller 11 changes the signal transmission period of the transmitter to P seconds. P is greater than S sec. In this way, the control unit 11 can set the signal transmission period when the transmitter moves and the signal transmission period when not moving, so that the power of the battery 13 can be saved. Because it uses more energy for signal transmission.

The time-series process according to the present invention will now be described. 6. 6 is a block diagram illustrating a schematic process of the object position specifying method of the present invention.

First, a cell is defined and a system is constructed (S100). N (N is an integer greater than 1) cells are defined as areas specified in a hospital building, and unique IDs are registered in advance in the server for each cell. Then, a data processing unit for storing necessary information such as a transmitter and a receiver ID, reference data (X and Y) and the like is provided in the server, and a position of the object is specified.

In fact, there are many objects in the hospital, so there are multiple transmitters. However, for only one transmitter, we will only look at how to locate the transmitter. In short, the transmitter is moving within the hospital building. From a server perspective, however, you do not know where the transmitter is moving or stopping. Therefore, as described above, this step is interpreted to mean that the transmitter periodically transmits a signal (S110).

Next, the receiver installed in the cell receives the signal of the transmitter and transmits it to the server (S120). In step S120, only one receiver may theoretically transmit to the server, and substantially, a plurality of receivers may transmit signals to the server. Cell receive distances of other receivers overlap each other. The signal at this time includes the transmitter ID and the radio signal strength (Tx Power) from the transmitter. The receiver may be connected to the server via a wired network.

Next, the data processor of the server specifies in which cell the object is located through Equation (1). If a signal is stored through a plurality of receivers, a cell indicated by the receiver having the highest RSSI value among the signals can be specified as a cell in which the object exists.

For reference, the object location management method in the hospital building according to an embodiment of the present invention may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape, optical recording media such as CD-ROMs, DVDs, magneto-optical media such as floptical disks, A hard disk drive, a flash memory, and the like. Examples of program instructions include high-level language code that can be executed by a computer using an interpreter, as well as machine accords such as those produced by a compiler. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

The scope of protection of the present invention is not limited to the description and the expression of the embodiments explicitly described in the foregoing. It is again to be understood that the present invention is not limited by the modifications or substitutions that are obvious to those skilled in the art.

Claims (10)

A transmitter that attaches to an object that is a device other than a smartphone and moves only to periodically transmit a signal with a predetermined radio wave intensity;
N (N is an integer greater than 1) cells are predefined as a specific area in a hospital building, a unique ID is assigned to each cell, and a transmitter ID, an atmospheric pressure information and an RSSI value are received from the transmitter A set of receivers and these receivers;
A server connected to the receivers belonging to the receiver set by wire or wireless, and storing a cell ID received from the receiver and an RSSI value of the transmitter; And
And a data processing unit communicating with the server to specify a position of the object,
Without actually calculating the actual coordinate position of the object in real time,
When the RSSI value of the transmitter is equal to or larger than the RSSI value in the predetermined distance reference value by simply using the RSSI value received from the transmitter and the obtained transmitter ID and the unique ID of the cell, Object location management system in a hospital building. The method according to claim 1,
Wherein the transmitter is provided with a barometer to transmit the atmospheric pressure information to the receiver to allow the server to identify the location of the object and to classify the floor of the hospital building. The method according to claim 1,
Wherein the object is selected from at least one of a medical staff, a patient, and a medical instrument. The method according to claim 1,
Wherein the transmitter is provided with an acceleration sensor and / or a gyro sensor, and the signal transmission cycle when the transmitter is always moving and the signal transmission cycle when the transmitter is not moving are set to be different from each other. The method according to claim 1,
Wherein the transmitter comprises a radio transmission module and transmits the identity of the transmitter and the radio output intensity value to the receiver. A method for managing the position of an object moving in a hospital building by determining whether an object is in a specific cell or not, without calculating an actual coordinate position of the object in real time,
N (N is an integer larger than 1) cells are defined as a specific area in a hospital building, a unique ID is registered in advance for each cell,
A transmitter that is attached to an object, which is a device other than a smart phone, periodically transmits a signal with a predetermined radio wave intensity,
One or more receivers installed in the cell zone receive the signal from the transmitter, transmit the identity of the transmitter, the pressure information and the RSSI to the server,
The data processing unit of the server specifies the position of the transmitter in the hospital building on the basis of the cell ID by using the ID of the transmitter, the unique ID, the received strength value, and the barometric pressure information of the pre-registered cell in which the receiver is installed / RTI >
The always-on transmitter only transmits a signal to the receiver,
The step of specifying the position of the transmitter in the hospital building may include the step of determining the location of the transmitter in the hospital building using the RSSI value received from the transmitter and the unique ID of the cell, And when the RSSI value is equal to or larger than an RSSI value at a predetermined distance reference value, determines that the object is located in the corresponding cell. The method according to claim 6,
Wherein the transmitter is provided with a barometer to further transmit the atmospheric pressure information to the receiver so that the server can identify the location of the object and to classify the floor of the hospital building. The method according to claim 6,
Wherein the transmitter is provided with an acceleration sensor and / or a gyro sensor, and the step of periodically transmitting a signal by the transmitter includes transmitting the signal by making the signal transmission period of the transmitter different from the signal transmission period of the signal transmission period A method for managing an object location in a hospital building. delete delete

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