CN111916194A - Emergency doctor determination method, terminal equipment, treatment platform and treatment system - Google Patents
Emergency doctor determination method, terminal equipment, treatment platform and treatment system Download PDFInfo
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- G16H40/00—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
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Abstract
The embodiment of the invention provides a determination method of an emergency doctor, terminal equipment, a treatment platform and a treatment system, wherein the determination method comprises the following steps: determining a plurality of emergency doctors capable of participating in rescue of a first person to be rescued in response to receiving first rescue information, wherein the first rescue information includes a first rescue location, a first rescue time, and a condition of the first person to be rescued; respectively sending first treatment requests to a plurality of terminal devices of the emergency doctors; and determining a first optimal emergency primary doctor and a plurality of first alternative emergency primary doctors which can participate in the first person to be treated from the plurality of emergency doctors according to the received feedback information sent by the terminal devices of the plurality of emergency doctors. By the technical scheme provided by the invention, the optimal emergency treatment doctor who can participate in the treatment of the person to be treated can be determined timely, quickly and accurately.
Description
Technical Field
The embodiment of the invention relates to the technical field of medical first-aid, in particular to a determination method for emergency doctors, terminal equipment, a treatment platform and a treatment system.
Background
In the existing medical treatment system, after receiving a call for help, an ambulance is sent to a place (i.e., a treatment location) for help, and then the ambulance brings the person to be treated back to the hospital, and medical staff starts to treat the person to be treated. The efficiency of the treatment mode is low, and especially the person to be treated may die because the person misses the best treatment time. Although the current intelligent treatment system can determine which hospital to select for treatment according to treatment information, and can also call the medical record of the person to be treated in time, and can measure the vital signs and shoot videos of the person to be treated in an ambulance, so that medical staff can prepare for operation as soon as possible, and strive for treatment time for the person to be treated, the intelligent treatment system cannot timely, quickly and accurately determine the emergency treatment doctor who can participate in the treatment of the person to be treated.
Disclosure of Invention
An object of an embodiment of the present invention is to provide a method for determining an emergency doctor, so as to solve a technical problem that an emergency treating doctor who can participate in the treatment of a person to be treated cannot be determined quickly in time after receiving treatment information in the prior art.
In a first aspect, an embodiment of the present invention provides a method for determining an emergency doctor, where the method for determining includes:
determining a plurality of emergency doctors capable of participating in rescue of a first person to be rescued in response to receiving first rescue information, wherein the first rescue information includes a first rescue location, a first rescue time, and a condition of the first person to be rescued;
respectively sending first treatment requests to a plurality of terminal devices of the emergency doctors; and
and according to the received feedback information sent by the terminal equipment of the plurality of emergency doctors, determining a first optimal emergency primary doctor and a plurality of first alternative emergency primary doctors which can participate in the first person to be rescued from the plurality of emergency doctors.
The present embodiment determines an optimal emergency treating doctor and a plurality of alternative emergency treating doctors capable of participating in the treatment of the patient from a plurality of emergency treating doctors by sending treatment information to the terminal device of the emergency treating doctor and analyzing feedback information sent by the terminal device, wherein the feedback information may include participation information indicating that the treatment can be participated in, so that the optimal emergency treating doctor capable of participating in the treatment of the patient can be determined promptly, quickly and accurately.
In one embodiment, the sending of the first rescue request to the terminal devices of the plurality of emergency medical doctors, respectively, includes:
when the terminal equipment of the emergency doctor comprises a work card with a warning function and a mobile phone and/or a computer, sending an alarm signal to the work card of the emergency doctor, and sending the first treatment request to the mobile phone and/or the computer of the emergency doctor, wherein the alarm signal is used for prompting the emergency doctor to check the first treatment request on the mobile phone and/or the computer of the emergency doctor.
In this embodiment, the work card with the warning function can prompt the emergency doctor to check the first treatment request on the mobile phone and/or the computer of the emergency doctor in time, so that the emergency doctor is prevented from not receiving or checking the first treatment request on the mobile phone and/or the computer in time, and the person to be treated misses the optimal treatment time.
In one embodiment, the determining a plurality of emergency doctors capable of participating in the rescue of the first person in response to the received first rescue information includes:
determining a target hospital within a predetermined distance range of the first person to be rescued in response to the received first rescue information; and
according to the electronic medical record of the first person to be rescued and/or the first rescue information, a plurality of emergency doctors capable of participating in the rescue of the first person to be rescued are determined from the target hospital.
In an embodiment, the determining, from a plurality of emergency medical doctors, a first optimal emergency medical treating doctor and a plurality of first candidate emergency medical treating doctors capable of participating in the treatment of the first person to be treated according to the received feedback information sent by the terminal devices of the plurality of emergency medical doctors comprises:
determining a plurality of emergency doctors capable of being gathered in the target hospital within a predetermined time according to the received feedback information sent by the terminal devices of the plurality of emergency doctors, wherein the predetermined time is less than the time for sending the first person to be treated from the first treatment position to the target hospital;
determining the first optimal emergency medical care giver and the first candidate emergency medical care giver, which are able to participate in the medical care of the first person to be treated, from among the plurality of emergency medical care givers.
The real-time position of the emergency doctor can be determined through the feedback information, whether the emergency doctor can be gathered in a preset time in a target hospital is analyzed, an optimal primary emergency doctor is determined from a plurality of emergency doctors which can be gathered in the target hospital in time, and therefore the situation that the first-aid doctor misses the optimal treatment time due to waiting for the primary emergency doctor is avoided for the first-aid doctor, meanwhile, the working pressure of the first-aid doctor can be reasonably distributed, and the situation that some emergency doctors still continue to participate in the treatment of the first-aid doctor due to overlong working time is avoided.
In one embodiment, the determining method further includes:
sending a second treatment request to a dispatching platform of the target hospital;
and determining a scheduling instruction and a path plan suitable for the target hospital according to the received feedback information of the scheduling platform, so that the target hospital schedules an ambulance to rescue the first person to be rescued according to the scheduling instruction and the path plan.
In one embodiment, the determining method further includes:
sending a second treatment request to a dispatching platform of the target hospital;
and determining a scheduling instruction and a path plan suitable for the target hospital according to the received feedback information of the scheduling platform, so that the target hospital schedules an ambulance to rescue the first person to be rescued according to the scheduling instruction and the path plan.
The embodiment determines the scheduling instruction and the path planning for the target hospital, so that the target hospital can select the most suitable path according to the path planning, thereby avoiding the peak period of the road and timely reaching the position of a person to be treated.
In one embodiment, the determining a plurality of emergency doctors capable of participating in the rescue of the first person in response to the received first rescue information includes:
responding to the received first treatment information, and inquiring whether an electronic medical record of the first person to be treated exists or not;
when the duration of the electronic medical record of the first person to be treated is inquired, determining a plurality of emergency doctors capable of participating in treating the first person to be treated according to the electronic medical record of the first person to be treated and/or the first treatment information; otherwise, according to the first treatment information, a plurality of emergency doctors capable of participating in treatment of the first patient to be treated are determined.
In the embodiment, by inquiring the electronic medical records, if the electronic medical records exist in front of the person to be treated, the body diseases in front of the person to be treated can be known in time from the electronic medical records, a corresponding treatment strategy can be more accurately made for the person to be treated, and the risk of incomplete treatment caused by lack of comprehensive understanding of the person to be treated is reduced.
In one embodiment, the determining method further includes:
determining a second optimal first aid attending physician and a plurality of second alternative first aid attending physicians capable of participating in the treatment of a second person to be treated in response to second treatment information received within a predetermined time, wherein the second treatment information comprises a second treatment location, a second treatment time and a condition of the second person to be treated;
when the first optimal primary emergency doctor and the second optimal primary emergency doctor are the same person, determining that the first optimal primary emergency doctor is the optimal primary emergency doctor participating in the rescue of the second person according to the distances between the plurality of second alternative primary emergency doctors and the second person and the condition of the second person, and changing the first optimal primary emergency doctor to the optimal primary emergency doctor capable of participating in the rescue of the second person.
In the present embodiment, when the first optimal primary emergency doctor is the optimal primary emergency doctor of the first person to be treated and the second person to be treated at the same time, the first optimal primary emergency doctor is changed to the optimal primary emergency doctor capable of participating in the treatment of the second person to be treated, considering comprehensively. Therefore, the treatment strategy can be adjusted in time according to the actual situation, so that the treatment is more flexible.
In one embodiment, the determining method further includes:
and re-selecting a new first optimal emergency treatment primary doctor capable of participating in the treatment of the first person at the plurality of first alternative emergency treatment primary doctors.
The present invention also provides a terminal device, including: the device comprises a receiving module and a sending module; the receiving module is used for receiving a first treatment request sent after responding to the received first treatment information; the sending module is configured to send feedback information made by the emergency medical doctor according to the received first treatment request, where the feedback information includes: the emergency doctor represents participation information capable of participating in a medical treatment of a person to be treated at a hospital set in time within a predetermined time and/or location information of the emergency doctor.
The invention also provides a rescue platform, the rescue system comprising: the rescue platform, the distributed device and the terminal equipment are in communication connection with the rescue platform and the distributed device respectively;
the rescue platform is used for issuing rescue information to the distributed device and/or receiving feedback information of terminal equipment corresponding to a plurality of emergency doctors and transmitted by the distributed device when the rescue information is received, wherein the distributed device comprises at least one Bluetooth beacon and at least one gateway;
the distributed device is used for sending the received treatment information to a plurality of terminal devices corresponding to the emergency doctors; and sending feedback information by a plurality of said emergency doctor's terminal devices to said rescue platform via at least one said bluetooth beacon and at least one said gateway.
According to the treatment system, the plurality of Bluetooth beacons are arranged in the hospital, so that the hospital is covered by the Bluetooth signals, and the terminal equipment of emergency doctors can timely receive a treatment request issued by the treatment platform in a range where the Bluetooth beacons can respond, so that the emergency doctors can timely know the emergency condition of the current person to be treated. In addition, the optimal primary emergency treatment doctor and the optional primary emergency treatment doctor which can participate in the treatment can be determined in time according to the feedback information of the emergency treatment doctor, so that the time from the receiving of the treatment information to the determination of the optimal primary emergency treatment doctor which can participate in the treatment is greatly shortened.
In an embodiment, the rescue platform is further configured to send a second rescue request to a dispatch platform of the target hospital; and determining a scheduling instruction and a path plan suitable for the target hospital according to the received feedback information of the scheduling platform, so that the target hospital schedules an ambulance to rescue the first person to be rescued according to the scheduling instruction and the path plan.
The invention determines the path planning through the dispatching platform, so that the ambulance can arrive at the treatment position in time according to the current traffic information, and the rescue speed is improved.
The present invention also provides a computer-readable storage medium, wherein the computer-readable storage medium has stored thereon an emergency doctor's determination program, which when executed by a processor implements the determination method as described above.
Drawings
Non-limiting and non-exhaustive embodiments of the present invention are described, by way of example, with reference to the following drawings, in which:
fig. 1A is a schematic diagram illustrating an architecture of an emergency treatment system in which a terminal device is a mobile phone according to an embodiment of the present invention;
FIG. 1B illustrates an architectural diagram of a terminal device that is a cell phone and the disclosed treatment system, according to an embodiment of the invention;
fig. 2 shows a flowchart of a determination method of an emergency doctor according to a first embodiment of the present invention;
fig. 3 shows a flowchart of a determination method of an emergency doctor according to a second embodiment of the present invention;
fig. 4 shows a flowchart of a determination method of an emergency doctor according to a third embodiment of the present invention;
fig. 5 shows a flowchart of a determination method of an emergency doctor according to a fourth embodiment of the present invention;
fig. 6 shows a flowchart of a determination method of an emergency doctor according to a fifth embodiment of the present invention.
Fig. 7 shows a schematic diagram of a terminal device according to an embodiment of the invention.
Detailed Description
In order to make the above and other features and advantages of the present invention more apparent, the present invention is further described below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not to be construed as limiting, for those of ordinary skill in the art.
In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the drawings in the embodiment of the present invention, and it is obvious that the described embodiment is only a part of the embodiment of the present invention, and not a whole embodiment. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.
The intelligent indoor emergency treatment system is mainly applied to a hospital scene provided with the intelligent indoor subsystem, and the intelligent indoor subsystem can timely determine the optimal emergency treatment primary doctor and the alternative emergency treatment primary doctor which can participate in the treatment of the person to be treated according to the received treatment information of the person to be treated. The following are some embodiments implemented according to the smart room subsystem.
Fig. 1A is a schematic diagram illustrating an architecture of an emergency treatment system in which a terminal device is a work card according to an embodiment of the present invention. Fig. 1B is a schematic diagram of an architecture of an emergency treatment system with a mobile phone and/or a computer as a terminal device according to an embodiment of the invention.
Referring to fig. 1A-1B, the rescue system 100 includes: rescue platform 110 and distributed devices 120 (e.g., smart room subsystems) and end devices 125. The rescue platform 110 is communicatively connected to the distributed apparatus 120, and the terminal device 125 is communicatively connected to the rescue platform 110 and the distributed apparatus 120, respectively. The rescue platform 110 is used to issue a rescue request to the distributed devices 120 and/or receive feedback information sent by the distributed devices 120 upon receiving the rescue information. The treatment information includes the position of the person to be treated, the treatment time, and the condition of the person to be treated, the position of the person to be treated is the position of the person to be treated where the condition of the person to be treated occurs, the treatment time is the time required for the person to be treated, and the condition of the person to be treated is the current condition of the person to be treated, for example: major hemorrhage, dyspnea, heart failure, etc. The rescue request includes: the time of the patient in the hospital, the condition of the patient, and the like can be collected before the patient is sent to the hospital. The feedback information may include participation information indicating a plurality of emergency physicians capable of participating in the rescue of the first responders at the hospital set in a timely manner within a predetermined time. The feedback information may further include: location information of emergency medical doctors.
The distributed apparatus 120 may include at least one bluetooth beacon 121 and at least one gateway 124 (e.g., a bluetooth gateway). The distributed apparatus 120 is used for sending the received treatment request to the terminal devices 125 (e.g. the terminal devices may be mobile phones, work cards with alarm function, computers, etc.) of a plurality of emergency doctors through at least one bluetooth beacon 121 and at least one gateway 124, specifically, the distributed apparatus 120 is used for sending the received treatment request to the terminal devices 125 (e.g. work cards with alarm function, combination of mobile phones and/or computers, or mobile phones) of a plurality of emergency doctors through at least one bluetooth beacon 121, at least one antenna unit 122, at least one combiner 123 and at least one gateway 124 which are connected in sequence And sending out a sound or the like to remind the emergency doctor to pay attention to the related treatment request.
The distributed apparatus 120 is also used to feed back feedback information sent by the terminal devices 125 of the plurality of emergency doctors to the rescue platform 110 via the at least one bluetooth beacon 121 and the at least one gateway 124. Of course, the terminal devices of a plurality of emergency doctors can directly send feedback information through network traffic without Bluetooth.
It is understood that the distribution device 120 may be a smart room subsystem, the bluetooth beacon 121 is connected to the antenna unit 122 through a bluetooth coupling access point and accesses a feeder, and the bluetooth signal is received by the bluetooth gateway 124 through the feeder and the combiner 123, so that the feedback information sent by the terminal devices of the emergency doctors is transmitted to the gateway through the bluetooth beacon 121 and is uploaded to the network manager 110' (e.g., the rescue platform 110) via the gateway, or may be other network management devices.
By arranging the distributed antenna units in the hospital and arranging the bluetooth beacons in a plurality of places, the treatment system 100 can expand the coverage area of the bluetooth signals in the hospital, thereby ensuring that terminal devices 125 (e.g., mobile phone terminals, bluetooth work cards or computers with alarm functions) capable of receiving bluetooth in the working area of the hospital can receive treatment requests issued by the treatment platform 110 or can send feedback information of emergency doctors to the treatment platform 110. Specifically, the emergency doctor's terminal device 125 may upload feedback information including location information and participation information to the treatment platform 110 via bluetooth beacons, gateways, and the like.
According to the invention, a treatment request can be sent to the terminal equipment of the emergency doctor in time, the position of the emergency doctor and the condition whether the emergency doctor can participate in the treatment can be determined in time according to the feedback information sent by the terminal equipment, and the optimal emergency primary treating doctor and a plurality of first alternative emergency primary treating doctors are determined from a plurality of emergency doctors capable of participating in the treatment of the person to be treated.
It should be noted that only the example of an emergency doctor is described herein, and the medical obligation staff is also included in the scope of the present disclosure.
By deploying the intelligent indoor distribution system in the hospital, the Bluetooth beacons are arranged in a plurality of places in the hospital, so that the comprehensive coverage of Bluetooth signals in the hospital can be ensured, the terminal equipment capable of receiving the Bluetooth can acquire the treatment request sent by the treatment platform in time and transmit the feedback information sent by the terminal equipment to the treatment platform in time, and the quick broadcast of the treatment request and the timely determination of the optimal emergency treatment doctor and a plurality of optional emergency treatment doctors of the persons to be treated who can participate in the treatment according to the feedback information are realized.
Fig. 2 shows a flowchart of a determination method of an emergency doctor according to a first embodiment of the present invention.
Referring to fig. 2, the emergency doctor's determination method of the present invention is applied to a rescue platform. Fig. 2 is a first embodiment showing a first emergency doctor determination method of the present invention, the emergency doctor determination method comprising:
and S110, in response to the received first treatment information, determining a plurality of emergency doctors capable of participating in treatment of the first person to be treated, wherein the first treatment information comprises a first treatment position, a first treatment time and the condition of the first person to be treated. The first treatment information is sent by a first client, for example: a mobile phone of the first person to be treated, and the like.
And S120, respectively sending first treatment requests to the terminal devices of the plurality of emergency doctors.
It will be appreciated that where the emergency doctor's terminal device includes a bluetooth-enabled work card and a cell phone and/or computer, an alert signal may be sent to the emergency doctor's work card (e.g., the emergency doctor may be alerted to the relevant treatment request by flashing a light, vibrating, sounding, etc.) and a first treatment request may be sent to the emergency doctor's cell phone and/or computer, the alert signal being used to prompt the emergency doctor to view the first treatment request on his cell phone and/or computer.
And S130, sending feedback information by the terminal equipment of the plurality of emergency doctors.
And S140, according to the received feedback information sent by the terminal devices of the plurality of emergency doctors, determining a first optimal emergency attending doctor and a plurality of first alternative emergency attending doctors which can participate in the first person to be treated from the plurality of emergency doctors.
The present embodiment determines an optimal emergency treating doctor and a plurality of alternative emergency treating doctors capable of participating in the treatment of the patient from a plurality of emergency treating doctors by sending treatment information to the terminal device of the emergency treating doctor and analyzing feedback information sent by the terminal device, wherein the feedback information may include participation information indicating that the treatment can be participated in, so that the optimal emergency treating doctor capable of participating in the treatment of the patient can be determined promptly, quickly and accurately.
In an embodiment, after determining a first optimal emergency medical care practitioner and a plurality of first alternative emergency medical care practitioners capable of participating in the rescue of a first person to be rescued, the determining method further comprises:
s150, sending related specific matters for treating the first person to be treated to the determined first optimal emergency treating doctor and the terminal equipment of a plurality of first alternative emergency treating doctors, wherein the related specific matters comprise: the first treatment position of the first person to be treated, the first treatment time, the condition of the first person to be treated and the like.
Fig. 3 shows a flowchart of a determination method of an emergency doctor according to a second embodiment of the present invention.
In an embodiment, referring to fig. 3, fig. 3 is a second embodiment of the emergency doctor's determination method of the present invention shown based on the first embodiment. S110, in response to the received first rescue information, determining a plurality of emergency doctors capable of participating in rescue of the first person to be rescued, including:
and S111, in response to the received first treatment information, determining a target hospital within a preset distance range of the first person to be treated.
It is to be appreciated that when a major accident or a general rescue event occurs, the rescue platform 110 obtains first rescue information (e.g., a location of the first person to be rescued, a condition of the first person to be rescued, etc.). Then, based on the first treatment information, the treatment platform 110 may determine at least one hospital (e.g., a plurality of hospitals within a radius of 5 km from the center of the first person to be treated) within a predetermined distance range of the location of the first person to be treated. The rescue platform 110 determines a target hospital (i.e., an optimal hospital) from the plurality of emergency medical doctors after receiving the feedback information of the plurality of emergency medical doctors within a predetermined time period according to comprehensive factors such as medical equipment of the hospital, treatment subjects which the emergency medical doctors are skilled in, working experience of the emergency medical doctors, and the like, for example, the number of emergency medical doctors who can participate in rescue of a person to be treated according to the feedback of the same hospital is large, and the hospital can be set as the target hospital in order to prevent other accidents; or the first person to be treated is often treated in a certain hospital before, the hospital is taken as a target hospital as the condition of the person to be treated is more familiar; or the position of a certain hospital close to the person to be treated and the related medical equipment are more complete, the hospital is taken as the target hospital.
And S112, according to the electronic medical record and/or the first treatment information of the first patient, determining a plurality of emergency doctors capable of participating in treatment of the first patient from the target hospital.
It is understood that a plurality of emergency doctors who can participate in the treatment of the person to be treated are selected according to the medical equipment of the hospital, the treatment subjects which the emergency doctors are skilled in, the working experience of the emergency doctors, whether the person to be treated is known, and the like.
Fig. 4 shows a flowchart of a determination method of an emergency doctor according to a third embodiment of the present invention.
In an embodiment, referring to fig. 4, fig. 4 is a third embodiment of the emergency doctor determination method of the present invention shown based on the second embodiment, and S140 may specifically include:
and S141, determining a plurality of emergency doctors capable of being integrated in the target hospital within a preset time according to the received feedback information sent by the terminal devices of the plurality of emergency doctors, wherein the preset time is less than the time for sending the first person to be treated from the first treatment position to the target hospital.
It is to be understood that the feedback information may be determined from the above description and will not be described herein. The predetermined time may be, for example: if the first person to be rescued is delivered to the target hospital from the first rescue location for 20 minutes and the time to send a rescue request to the emergency doctor is 32 minutes at 4 pm, it is determined that the emergency doctors capable of participating in the rescue need to be collected in the target hospital 4 pm by 52 minutes before to be able to ensure that the first person to be rescued is delivered to the target hospital in time.
In addition, according to the received feedback information sent by the plurality of emergency doctor terminal devices, a plurality of emergency doctors capable of participating in the rescue of the first person to be rescued in the target hospital and/or not in the target hospital can be determined; and then sending the treatment request to the Bluetooth work cards and/or mobile phones and computers with warning functions of a plurality of emergency doctors in the target hospital, and sending the treatment request to the mobile phones and/or computers of a plurality of emergency doctors not in the target hospital.
For example: the rescue platform 110 determines whether the plurality of emergency doctors are in the target hospital according to the uplink positioning (i.e., transmitting the feedback information including the location information and the participation information of the emergency doctors) of the smart room distribution system (i.e., the distributed device), and if the plurality of emergency doctors (e.g., it is determined that 10 emergency doctors capable of participating in the rescue are in the target hospital), transmits a rescue request (e.g., transmitting the electronic medical record of the first person to be rescued, the current condition of the first person to be rescued, etc.) to the terminal devices 125 of the plurality of emergency doctors through the rescue platform 110. The rescue platform 110 can also send a rescue request or a short message to the APP (WeChat, QQ, enterprise WeChat, nailing, etc.) of the cell phone of the emergency medical doctor who is not in the target hospital, or can manually call the emergency medical doctor who is not in the target hospital. The emergency doctor terminal can be a mobile phone or a PC. The mobile phone may receive the treatment request with a WeChat applet or mobile app.
After receiving the treatment request, the emergency doctors quickly judge whether to gather in the target hospital within a preset time so as to participate in the first person to be treated. If the target hospital can be collected in time, feedback information that can participate in treatment is transmitted through its terminal device 125. At the same time, each emergency doctor can also send treatment opinions through its terminal device 125, which can be provided as a reference to the optimal emergency treating doctor who is finally determined as the first person to be treated. If some emergency physicians do not see a treatment request pushed to their cell phone, or the emergency physician is handling other emergency (e.g., is operating), or is not able to return to the target hospital in a timely manner outside, or the emergency physician's physical condition does not allow the procedure to continue, then there is no need to return a message to the treatment platform 110, thereby avoiding becoming the optimal or alternate emergency primary physician.
And S142, determining a first optimal emergency treating doctor and a plurality of first alternative emergency treating doctors which can participate in the treatment of the first person to be treated from the plurality of emergency treating doctors.
The real-time position of the emergency doctor can be determined through the feedback information, whether the emergency doctor can be gathered in a preset time in a target hospital is analyzed, an optimal primary emergency doctor is determined from a plurality of emergency doctors which can be gathered in the target hospital in time, and therefore the situation that the first-aid doctor misses the optimal treatment time due to waiting for the primary emergency doctor is avoided for the first-aid doctor, meanwhile, the working pressure of the first-aid doctor can be reasonably distributed, and the situation that some emergency doctors still continue to participate in the treatment of the first-aid doctor due to overlong working time is avoided.
In an embodiment, after determining a first optimal emergency medical care practitioner and a plurality of first alternative emergency medical care practitioners capable of participating in the rescue of a first person to be rescued, the determining method further comprises:
s150, sending related specific matters for treating the first person to be treated to the determined first optimal emergency treating doctor and the terminal equipment of a plurality of first alternative emergency treating doctors, wherein the related specific matters comprise: the first treatment position of the first person to be treated, the first treatment time, the condition of the first person to be treated and the like.
Fig. 5 shows a flowchart of a determination method of an emergency doctor according to a fourth embodiment of the present invention.
In one embodiment, referring to fig. 5, S110, determining a plurality of emergency medical doctors capable of participating in the first person to be rescued in response to the received first rescue information includes:
s510, responding to the received first treatment information, and inquiring whether the electronic medical record of the first patient to be treated exists.
S520, when the duration of the electronic medical record of the first person to be treated is inquired, a plurality of emergency doctors capable of participating in the treatment of the first person to be treated are determined according to the electronic medical record of the first person to be treated and/or the first treatment information; otherwise, according to the first treatment information, a plurality of emergency doctors capable of participating in treatment of the first patient to be treated are determined.
Because the first person to be treated is likely to go to the hospital to see the disease before, the electronic medical record of the first person to be treated may be stored in the electronic system, so that whether the electronic medical record of the first person to be treated exists can be inquired and seen in time after the received first treatment information, and when the electronic medical record of the first person to be treated is inquired, a plurality of emergency doctors capable of participating in the treatment of the first person to be treated are determined according to the electronic medical record of the first person to be treated and the first treatment information of the person to be treated.
It is understood that when a major accident or a general rescue event occurs, the rescue platform 110 first obtains the first person's information, such as name, contact number, and specific illness. Through these data of the first person to be treated, the treatment platform 110 can quickly query whether the electronic medical record of the first person to be treated exists in the system, and can obtain the previous treatment status, existing medical history, and the name of the emergency doctor before the first person to be treated, etc. of the first person to be treated according to the queried electronic medical record of the first person to be treated. According to the electronic medical record of the first person to be treated, a plurality of emergency doctors (for example, emergency doctors who are in line with the first person to be treated) which can participate in the treatment of the first person to be treated are determined by combining the current accident and the current disease condition of the first person to be treated. Of course, in some cases, the first person to be treated does not have the electronic medical record, and a plurality of emergency doctors who can participate in the treatment of the first person to be treated can be determined according to the current disease condition (i.e., the first treatment information) of the first person to be treated.
Fig. 6 shows a flowchart of a determination method of an emergency doctor according to a fifth embodiment of the present invention.
Referring to fig. 6, in an embodiment, the determining method further includes:
and S610, in response to second treatment information received within a preset time, determining a second optimal first aid treating doctor and a plurality of second alternative first aid treating doctors which can participate in the treatment of a second person to be treated, wherein the second treatment information comprises a second treatment position, a second treatment time and the condition of the second person to be treated. The second treatment information is sent by the second client, for example: a mobile phone of a second person to be treated, and the like.
And S620, when the first optimal emergency attending doctor and the second optimal emergency attending doctor are the same person, determining the first optimal emergency attending doctor as the optimal emergency attending doctor participating in the rescue of the second person according to the distances between the second optional emergency attending doctors and the second person to be rescued and the illness state of the second person to be rescued.
S630, the first optimal emergency medical doctor is changed into a second optimal emergency medical doctor who can participate in the rescue of the second person to be rescued.
In the embodiment of the present invention, after the first optimal emergency medical doctor is changed to the second optimal emergency medical doctor who can participate in the rescue of the second person to be rescued, the terminal device of the first optimal emergency medical doctor is sent to change it to the second optimal emergency medical doctor who can participate in the rescue of the second person to be rescued. It is to be appreciated that the determination of the second optimal emergency medical treating physician and the plurality of second alternative emergency medical treating physicians for the second person may be made in accordance with the above-described method of determining the first optimal emergency medical treating physician and the plurality of first alternative emergency medical treating physicians for the first person. And will not be described repeatedly herein.
It will be appreciated that two major accidents occur in succession within a short period of time, the first major accident in the scenario of figure 2, it is determined that the emergency doctor a is the optimal emergency treating doctor for treating the first person to be treated (i.e., the first optimal emergency treating doctor), but before the first person to be treated is sent to the target hospital, a second accident occurs, but also emergency doctor a is the optimal emergency attending doctor for treating the second person to be treated (i.e., the second optimal emergency attending doctor), in the case where the other second alternative emergency medical attendant is too far from the scene of the second accident, and emergency medical attendant A is more appropriate for attending the second person, the first aid doctor A who treats the first person to be treated is modified by the treatment platform to the optimal first aid treating doctor who treats the second person to be treated, and the first aid doctor A is deleted from the first aid treating doctor options of the first accident. And then selecting a new optimal emergency treating doctor which can participate in treating the first person to be treated again from the plurality of first alternative emergency treating doctors. Therefore, the first person to be treated and the second person to be treated can be better treated. Referring to fig. 1, an embodiment of the present invention provides that the rescue platform 110 in the rescue system is further configured to send a second rescue request to the dispatching platform of the target hospital; and determining a scheduling instruction and a path plan suitable for the target hospital according to the received feedback information of the scheduling platform, so that the target hospital schedules an ambulance to rescue the first person to be rescued according to the scheduling instruction and the path plan.
Through comprehensive analysis, the rescue platform 110 determines a target hospital and an optimal primary emergency doctor, and determines a plurality of target hospitals and a plurality of alternative primary emergency doctors when conditions allow, and sends an instruction to the target hospital where the optimal primary emergency doctor is located, and the target hospital sends an ambulance to the receiving person to be rescued. The ambulance can carry video equipment, and videos shot by a person to be treated are pushed to an optimal primary emergency doctor and an optional primary emergency doctor at any time, so that the treatment is not interrupted due to a temporary event.
It will be appreciated that in the application scenarios of fig. 2-6, when a major accident or a general treatment event occurs, the treatment platform sends requests to a plurality of target hospitals in the vicinity of the person to be treated, requesting those target hospitals to dispatch ambulances, and those target hospitals, upon receiving the requests, reply with how many ambulances can be currently dispatched. The rescue platform determines a scheduling instruction corresponding to each target hospital based on the replies, assigns to each target hospital the number of ambulances to be dispatched, and provides at least one path plan to assist the ambulances in arriving at the accident site.
Fig. 7 shows a schematic diagram of a terminal device according to an embodiment of the invention.
An embodiment of the present invention further provides a terminal device 125, where the terminal device 125 includes: a receiving module 125A and a transmitting module 125B. The receiving module 125A may be configured to receive a first rescue request sent after responding to the received first rescue information. The sending module 125B may be configured to send feedback information made by the emergency doctor according to the received first treatment request, where the feedback information includes: the emergency doctor represents participation information capable of participating in a medical treatment of a person to be treated at a hospital set in time within a predetermined time and/or location information of the emergency doctor.
For more description of the terminal device, reference may be made to the description of fig. 1-6 above, and a repeated description will not be made here.
Embodiments of the present invention also provide a rescue platform for applying the method of determination of the emergency doctor as described above.
The embodiment of the invention also provides a computer readable storage medium, wherein the computer readable storage medium stores a determination program of an emergency doctor, and the determination program of the emergency doctor realizes the determination method when being executed by a processor.
Other detailed explanation about the emergency doctor determination method of the present invention may refer to the above-described description about the rescue system, and will not be described repeatedly herein. The above-mentioned serial numbers of the embodiments of the present application are merely for description and do not represent the merits of the embodiments.
It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.
Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present application may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present application.
The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application, or which are directly or indirectly applied to other related technical fields, are included in the scope of the present application.
Claims (10)
1. A method for determining emergency medical doctors, the method comprising,
determining a plurality of emergency doctors capable of participating in rescue of a first person to be rescued in response to receiving first rescue information, wherein the first rescue information includes a first rescue location, a first rescue time, and a condition of the first person to be rescued;
respectively sending first treatment requests to a plurality of terminal devices of the emergency doctors; and
and according to the received feedback information sent by the terminal equipment of the plurality of emergency doctors, determining a first optimal emergency primary doctor and a plurality of first alternative emergency primary doctors which can participate in the first person to be rescued from the plurality of emergency doctors.
2. The emergency doctor determination method according to claim 1, wherein the sending of the first rescue request to the terminal devices of the plurality of emergency doctors, respectively, comprises:
when the terminal equipment of the emergency doctor comprises a work card with a warning function and a mobile phone and/or a computer, sending an alarm signal to the work card of the emergency doctor, and sending the first treatment request to the mobile phone and/or the computer of the emergency doctor, wherein the alarm signal is used for prompting the emergency doctor to check the first treatment request on the mobile phone and/or the computer of the emergency doctor.
3. The emergency doctor determination method according to claim 1, wherein the determining, in response to the received first rescue information, a plurality of emergency doctors who can participate in the rescue of the first person includes:
determining a target hospital within a predetermined distance range of the first person to be rescued in response to the received first rescue information; and
according to the electronic medical record of the first person to be rescued and/or the first rescue information, a plurality of emergency doctors capable of participating in the rescue of the first person to be rescued are determined from the target hospital.
4. The emergency medical doctor determining method according to claim 3, wherein the determining, from among the plurality of emergency medical doctors, a first optimal emergency medical treating doctor and a plurality of first candidate emergency medical treating doctors who can participate in the treatment of the first person, based on the received feedback information transmitted from the terminal devices of the plurality of emergency medical doctors, comprises:
determining a plurality of emergency doctors capable of being gathered in the target hospital within a predetermined time according to the received feedback information sent by the terminal devices of the plurality of emergency doctors, wherein the predetermined time is less than the time for sending the first person to be treated from the first treatment position to the target hospital;
determining the first optimal emergency medical care giver and the first candidate emergency medical care giver, which are able to participate in the medical care of the first person to be treated, from among the plurality of emergency medical care givers.
5. The emergency medical practitioner determination method of claim 4, further comprising:
sending a second treatment request to a dispatching platform of the target hospital;
and determining a scheduling instruction and a path plan suitable for the target hospital according to the received feedback information of the scheduling platform, so that the target hospital schedules an ambulance to rescue the first person to be rescued according to the scheduling instruction and the path plan.
6. The emergency doctor determination method according to claim 1, wherein the determining, in response to the received first rescue information, a plurality of emergency doctors who can participate in the rescue of the first person includes:
responding to the received first treatment information, and inquiring whether an electronic medical record of the first person to be treated exists or not;
when the duration of the electronic medical record of the first person to be treated is inquired, determining a plurality of emergency doctors capable of participating in treating the first person to be treated according to the electronic medical record of the first person to be treated and/or the first treatment information; otherwise, according to the first treatment information, a plurality of emergency doctors capable of participating in treatment of the first patient to be treated are determined.
7. The emergency doctor determination method of claims 1-6, further comprising:
determining a second optimal first aid attending physician and a plurality of second alternative first aid attending physicians capable of participating in the treatment of a second person to be treated in response to second treatment information received within a predetermined time, wherein the second treatment information comprises a second treatment location, a second treatment time and a condition of the second person to be treated;
when the first optimal primary emergency doctor and the second optimal primary emergency doctor are the same person, determining that the first optimal primary emergency doctor is the optimal primary emergency doctor participating in the rescue of the second person according to the distances between the plurality of second alternative primary emergency doctors and the second person and the condition of the second person, and changing the first optimal primary emergency doctor to the optimal primary emergency doctor capable of participating in the rescue of the second person.
8. A terminal device, characterized in that the terminal device comprises: the device comprises a receiving module and a sending module;
the receiving module is used for receiving a first treatment request sent after responding to the received first treatment information;
the sending module is configured to send feedback information made by the emergency medical doctor according to the received first treatment request, where the feedback information includes: the emergency doctor represents participation information capable of participating in a medical treatment of a person to be treated at a hospital set in time within a predetermined time and/or location information of the emergency doctor.
9. A rescue platform for applying the emergency physician's determination of any one of claims 1-7.
10. An rescue system, characterized in that the rescue system comprises: the terminal device of claim 8, a distributed installation, and the rescue platform of claim 9, the rescue platform communicatively coupled to the distributed installation, the terminal device communicatively coupled to the rescue platform, the distributed installation, respectively;
the rescue platform is used for issuing rescue information to the distributed device and/or receiving feedback information of terminal equipment corresponding to a plurality of emergency doctors and transmitted by the distributed device when the rescue information is received, wherein the distributed device comprises at least one Bluetooth beacon and at least one gateway;
the distributed device is used for sending the received treatment information to a plurality of terminal devices corresponding to the emergency doctors; and sending feedback information by a plurality of said emergency doctor's terminal devices to said rescue platform via at least one said bluetooth beacon and at least one said gateway.
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