CN112907070A - Vehicle scheduling control system, method and control platform for mobile detection laboratory - Google Patents

Abstract

The invention discloses a vehicle dispatching control method for a mobile detection laboratory. The method comprises the following steps: s1, a mobile detection control platform receives reservation information of a patient; s2, the mobile detection control platform acquires detection items of the patient according to the reservation information and determines a detection time consumption pre-evaluation value according to the detection items; and S3, the mobile detection control platform acquires detection time and detection places according to the reservation information, and controls the dispatching of the vehicle according to the detection places, the detection time and the detection time-consuming estimated value. In addition, the system also comprises a corresponding control system and a mobile detection control platform. The invention improves the vehicle dispatching accuracy of the mobile detection laboratory.

Description

Vehicle scheduling control system, method and control platform for mobile detection laboratory

Technical Field

The invention relates to the technical field of vehicle scheduling, in particular to a vehicle scheduling control system, a vehicle scheduling control method and a vehicle scheduling control platform for a mobile detection laboratory.

Background

At present, the vehicle scheduling scheme of the internet generally generates a driving route based on an actual service scene, then selects an optimal path, matches according to real-time road conditions, and plans the scheduling scheme. When the journey is influenced and interrupted by medical detection service, because the same detection service is carried out in a hospital and is influenced by different factors in a mobile detection vehicle, the time consumption is different, direct planning cannot be carried out, the time cannot be accurately estimated, the scheduling scheme of planning is seriously influenced, and the execution scheme and the planning scheme are greatly diverged.

Disclosure of Invention

The invention aims to provide a vehicle dispatching control system, a vehicle dispatching control method and a vehicle dispatching control platform for a mobile detection laboratory.

To achieve the above object, the present invention provides a vehicle dispatch control method for a mobile inspection laboratory, the method comprising the steps of,

s1, a mobile detection control platform receives reservation information of a patient;

s2, the mobile detection control platform acquires detection items of the patient according to the reservation information and determines a detection time consumption pre-evaluation value according to the detection items;

and S3, the mobile detection control platform acquires detection time and detection places according to the reservation information, and controls the dispatching of the vehicle according to the detection places, the detection time and the detection time-consuming estimated value.

Preferably, the step S2 specifically includes:

the mobile detection control platform determines the time coefficient of the patient according to the natural information of the reserved patient;

the mobile detection control platform determines a detection time-consuming set value according to a detection item of an appointed patient;

and the mobile detection control platform determines a detection time consumption estimated value according to the detection time consumption set value and the time coefficient of the reserved patient.

Preferably, step S2 specifically includes:

the mobile detection control platform determines a detection time-consuming set value according to a detection item of an appointed patient;

the mobile detection control platform determines the time coefficient of a detection person executing the detection item;

and the mobile detection control platform determines a detection time consumption estimated value according to the detection time consumption set value and the time coefficient of the detection personnel.

Preferably, the step S3 specifically includes:

the mobile detection control platform determines departure time according to the detection time consumption estimated value and the reserved detection time;

the mobile detection control platform determines a driving route according to the departure time and the detection place;

and the mobile detection control platform is used for driving the vehicle according to the driving route.

Preferably, the method further comprises the following steps:

when the mobile detection laboratory finishes a detection project, the cloud storage server stores a detection time-consuming actual value.

Preferably, the method further comprises the following steps:

the mobile detection control platform establishes communication connection with the cloud storage server to acquire a detection time-consuming actual value of the patient who has finished the appointment;

the mobile detection control platform compares the actual detection time consumption value with the estimated detection time consumption value and obtains a comparison result;

and the mobile detection control platform adjusts the time coefficient of the patient and the time coefficient of the detection personnel according to the comparison result.

Correspondingly, the invention also provides a vehicle dispatching control system of the mobile detection laboratory, which comprises:

the mobile detection system comprises a mobile detection control platform and a cloud storage server communicated with the mobile detection control platform;

the mobile detection control platform is used for receiving reservation information of a patient, acquiring a detection item, detection time and a detection place according to the reservation information, determining a detection time-consuming estimated value according to the detection item, and completing vehicle scheduling according to the detection time, the detection time-consuming estimated value and the detection time-consuming estimated value;

the cloud storage server is used for storing actual detection time consumption values of the finished detection projects;

the mobile detection control platform acquires a detection time-consuming actual value from the cloud storage server, compares the detection time-consuming actual value with a detection time-consuming estimated value, and performs scheduling control on the vehicle according to a comparison result.

Preferably, the mobile detection control platform stores the corresponding relationship between the patient natural information and the time coefficient and the corresponding relationship between the detection personnel and the time coefficient;

the mobile detection control platform is also used for determining a time coefficient of a current appointment patient according to a corresponding relation between pre-stored natural information of the patient and the time coefficient when a detection time consumption estimated value is determined; determining the time coefficient of the detection personnel according to the corresponding relation between the pre-stored detection personnel and the time coefficient; and determining a detection time consumption estimated value according to the time coefficient of the reserved patient and the time coefficient of the detection personnel.

Preferably, the mobile detection control platform is further configured to determine departure time according to the detection time consumption estimated value and the detection time, determine a driving route according to the departure time and the detection location, and arrange the driving vehicle according to the driving route.

Correspondingly, the invention also provides a mobile detection control platform which comprises one or more memories, wherein the memories store software control programs, and the execution steps of the software control programs are the steps in the vehicle dispatching control method of the mobile detection laboratory.

Has the advantages that:

according to the embodiment of the invention, the time efficiency of the vehicle is improved and the timeliness of the detection of the patient through a mobile detection laboratory is improved according to the detection time consumption estimated value and the vehicle scheduling.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic diagram of one embodiment of a vehicle dispatch control system for a mobile testing laboratory in accordance with the present invention;

fig. 2 is a schematic flowchart of a vehicle dispatching control method of a mobile detection laboratory according to an embodiment of the present invention.

Detailed Description

The following describes embodiments of the present invention in detail with reference to the accompanying drawings.

The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and effects of the present invention will be easily understood by those skilled in the art from the disclosure of the present specification. The invention is capable of other and different embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the spirit and scope of the present invention.

It should be noted that the drawings provided in the present embodiment are only for illustrating the basic idea of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the type, quantity and proportion of the components in actual implementation may be changed freely, and the layout of the components may be more complicated.

Referring to fig. 1, a schematic diagram of an embodiment of a vehicle dispatch control system for a mobile testing laboratory of the present invention includes: the mobile detection system comprises a mobile detection control platform 1 and a cloud storage server 2, wherein the cloud storage server 2 and the mobile detection control platform communicate by establishing a communication link.

Specifically, the mobile detection control platform 1 is used for receiving reservation information of a patient, acquiring a detection item, detection time and a detection place according to the reservation information, determining a detection time-consuming estimated value according to the detection item, and completing vehicle scheduling according to the detection time, the detection time-consuming estimated value and the detection time-consuming estimated value;

the cloud storage server 2 is used for storing actual detection time consumption values of the detection items;

the mobile detection control platform 1 acquires a detection time-consuming actual value from the cloud storage server 2, compares the detection time-consuming actual value with a detection time-consuming estimated value, and performs scheduling control on the vehicle according to a comparison result.

In addition, the mobile detection control platform stores a control program of the vehicle dispatching method of the mobile detection laboratory, and the following describes the control steps of the mobile detection control platform, and refer to fig. 2, which is a schematic flow chart of an embodiment of the vehicle dispatching method of the mobile detection laboratory according to the present invention, and the flow chart includes:

at step s1, the mobile testing control platform receives the patient appointment information, which may include the testing time and the testing location, and may also include the testing items according to the actual application. In addition, the mobile detection platform stores the natural information of the reserved patient in advance, and the natural information can comprise the age, the sex, the patient history and the like of the patient.

Step s2, the mobile detection control platform determines the natural information of the patient according to the patient appointment information and determines the time coefficient of the patient according to the natural information of the patient; the natural information comprises personal privacy such as gender, age, medical history and the like, and in specific implementation, the mobile detection control platform sets time parameters for each natural information parameter, for example, the time parameters of males and females are different from the gender, the segmented setting can be performed from the age, and the time parameters of a young patient are different from the time parameters of the old patient, so that different time coefficients are set for patients of different ages and physical conditions, and the accuracy of the detection time-consuming pre-estimation value of a single patient is improved;

step s3, the mobile detection control platform determines a detection time-consuming set value according to the detection items of the reserved patient; during specific implementation, the mobile detection control platform sets different time coefficients for each different detection item, for example, different time coefficients are set for a more complex detection item and a more simple detection item, so that the accuracy of a detection time-consuming estimated value is further improved;

step s4, the mobile detection control platform determines the detection personnel executing the detection item and the time coefficient of the detection personnel; during specific implementation, a plurality of detection personnel can be arranged to execute field operation in the same detection project, each execution personnel corresponds to different time coefficients, when specific detection personnel are selected, the detection personnel with smaller time coefficients can be selected preferentially, and the detection personnel can also be specified according to specific conditions. In addition, the inspection personnel referred to herein include both sampling personnel and examiners, and other personnel provided for implementing the inspection items, and each of the personnel can set a corresponding inspection coefficient.

Step s5, the mobile detection control platform determines a detection time consumption estimated value according to the detection time consumption set value, the time coefficient of the reserved patient and the time coefficient of the detection personnel; it should be noted that the detection time-consuming estimated value in this step may also be determined according to the detection time-consuming set value and the time coefficient of the patient and/or the time coefficient of the detector, which is not described herein again;

the above is the flow steps for determining the detection time consumption preset value, wherein the sequence of steps s2-s5 may be adjusted according to the process executed by the computer software, or may be executed simultaneously, which is not limited herein.

And step S6, the mobile detection control platform determines departure time according to the detection time consumption estimated value and the detection time, then determines a driving route according to the departure time and the detection place, and finally arranges the driving vehicle according to the driving route. During specific implementation, the mobile detection control platform can call a map service according to the predicted departure time, the current reserved place (starting point) and the next reserved place (end point) to obtain the fastest running route in the estimated time period, then generate the running routes of all reserved detection places on the day, and finally draw the complete running route of the detected vehicle on the day;

step S7, when the mobile detection laboratory finishes the detection project, the cloud storage server stores the actual detection time consumption value; during specific implementation, a mobile detection laboratory can report relevant experimental data to a cloud storage server for storage, the relevant experimental data can comprise the time spent by sampling personnel, the time spent by inspection personnel and other personnel, and also can comprise information of relevant time conditions and other information of patients, and the information is collected to be a detection time-consuming actual value; in addition, the actual value of the vehicle running time can be reported to the cloud storage server, so that the actual value and the estimated value of the vehicle running time can be compared by the mobile detection control platform, the estimated value is adjusted, and the accuracy of the estimated value can be further improved;

and step S8, the mobile detection control platform obtains the actual detection time-consuming value of the patient who has completed the appointment from the cloud storage, compares the actual detection time-consuming value with the estimated detection time-consuming value to obtain a comparison result, and adjusts the time coefficient of the natural information of the patient and the time coefficient of the detector according to the comparison result.

According to the embodiment of the invention, different time coefficients are set for patients with different natural information, for example, the patients with a relatively light age and the old patients, so that the accuracy of the detection time consumption estimated value is improved.

According to the embodiment of the invention, different time coefficients are set for detection personnel of different levels, so that the accuracy of the detection time consumption estimated value is improved.

According to the embodiment of the invention, the detection time-consuming actual value is stored through the cloud storage server, and then the detection control platform is moved to compare the difference between the detection time-consuming actual value and the detection time-consuming estimated value to adjust the estimated value, so that the accuracy of the estimated value is improved.

While the foregoing description shows and describes several preferred embodiments of the invention, it is to be understood, as noted above, that the invention is not limited to the forms disclosed herein, but is not intended to be exhaustive of other embodiments, and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as described herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A vehicle dispatching control method for a mobile detection laboratory is characterized by comprising the following steps:

s1, a mobile detection control platform receives reservation information of a patient;

s2, the mobile detection control platform acquires detection items of the patient according to the reservation information and determines a detection time consumption pre-evaluation value according to the detection items;

and S3, the mobile detection control platform acquires detection time and detection places according to the reservation information, and controls the dispatching of the vehicle according to the detection places, the detection time and the detection time-consuming estimated value.

2. The vehicle scheduling control method according to claim 1, wherein the step S2 specifically includes:

the mobile detection control platform determines the time coefficient of the patient according to the natural information of the reserved patient;

the mobile detection control platform determines a detection time-consuming set value according to a detection item of an appointed patient;

and the mobile detection control platform determines a detection time consumption estimated value according to the detection time consumption set value and the time coefficient of the reserved patient.

3. The vehicle scheduling control method according to claim 1, wherein step S2 specifically includes:

the mobile detection control platform determines a detection time-consuming set value according to a detection item of an appointed patient;

the mobile detection control platform determines the time coefficient of a detection person executing the detection item;

and the mobile detection control platform determines a detection time consumption estimated value according to the detection time consumption set value and the time coefficient of the detection personnel.

4. The vehicle scheduling control method according to claim 1, wherein the step S3 specifically includes:

the mobile detection control platform determines departure time according to the detection time consumption estimated value and the reserved detection time;

the mobile detection control platform determines a driving route according to the departure time and the detection place;

and the mobile detection control platform is used for driving the vehicle according to the driving route.

5. The vehicle scheduling control method according to any one of claims 1 to 4, further comprising:

when the mobile detection laboratory finishes a detection project, the cloud storage server stores a detection time-consuming actual value.

6. The vehicle scheduling control method according to claim 5, further comprising: the mobile detection control platform establishes communication connection with the cloud storage server to acquire a detection time-consuming actual value of the patient who has finished the appointment;

the mobile detection control platform compares the actual detection time consumption value with the estimated detection time consumption value and obtains a comparison result;

and the mobile detection control platform adjusts the time coefficient of the patient and the time coefficient of the detection personnel according to the comparison result.

7. A vehicle dispatch control system for a mobile testing laboratory, comprising: the mobile detection system comprises a mobile detection control platform and a cloud storage server communicated with the mobile detection control platform;

the mobile detection control platform is used for receiving reservation information of a patient, acquiring a detection item, detection time and a detection place according to the reservation information, determining a detection time-consuming estimated value according to the detection item, and completing vehicle scheduling according to the detection time, the detection time-consuming estimated value and the detection time-consuming estimated value;

the cloud storage server is used for storing actual detection time consumption values of the finished detection projects;

the mobile detection control platform acquires a detection time-consuming actual value from the cloud storage server, compares the detection time-consuming actual value with a detection time-consuming estimated value, and performs scheduling control on the vehicle according to a comparison result.

8. The vehicle dispatching control system of mobile detection laboratory according to claim 7, characterized in that, the mobile detection control platform stores the corresponding relationship between the natural information of patient and the time coefficient and the corresponding relationship between the detecting person and the time coefficient;

the mobile detection control platform is also used for determining a time coefficient of a current appointment patient according to a corresponding relation between pre-stored natural information of the patient and the time coefficient when a detection time consumption estimated value is determined; determining the time coefficient of the detection personnel according to the corresponding relation between the pre-stored detection personnel and the time coefficient; and determining a detection time consumption estimated value according to the time coefficient of the reserved patient and the time coefficient of the detection personnel.

9. The system of claim 7, wherein the mobile testing control platform is further configured to determine a departure time according to the estimated testing elapsed time and the testing time of the appointment, determine a driving route according to the departure time and the testing location, and arrange the vehicle according to the driving route.

10. A movement detection control platform comprising one or more memories storing software control programs, the execution steps of the software control programs being the steps of claims 1-6.

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