CN107491659B - Medical equipment system upgrading method and device - Google Patents
Medical equipment system upgrading method and device Download PDFInfo
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- CN107491659B CN107491659B CN201710853416.1A CN201710853416A CN107491659B CN 107491659 B CN107491659 B CN 107491659B CN 201710853416 A CN201710853416 A CN 201710853416A CN 107491659 B CN107491659 B CN 107491659B
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Abstract
The invention discloses a medical equipment system upgrading method and a medical equipment system upgrading device, wherein the method comprises the following steps: determining that an upgrading device is accessed to a medical equipment system to obtain a first determination result, wherein an upgrading program is stored in the upgrading device; automatically upgrading the medical equipment system according to the first determination result; determining that the upgrading is completed to obtain a second determination result; according to the second determination result, erasing intermediate data generated in the upgrading process or the upgrading program; and disconnecting the upgrade device from the medical device system. The method for automatically upgrading the medical equipment system reduces the manual dependence on service engineers, and avoids the occupation of the service time of the medical equipment due to the upgrade of the medical equipment system.
Description
Technical Field
The invention relates to the field of medical equipment systems, in particular to a medical equipment system upgrading method and device.
Background
Currently, upgrades to medical equipment (e.g., computed tomography) systems are typically done by means of service engineers from the medical equipment manufacturers; even if the medical devices can be upgraded remotely in the future, there is no guarantee that all medical devices (or hospitals) will have access to the Internet network, and the presence of a service engineer may still be required. Once a manufacturer's service engineer has a lack of human resources (e.g., current service engineers are not time-critical, tools are not purchased in a timely manner, etc.) or the service engineer has a limited level of capability (e.g., limited skill level, poor job status, etc.), the medical device system upgrade process may be impacted. Moreover, for a long time, software upgrades for medical devices must be performed by 1-2 service engineers, which takes about 7 hours to complete. Considering the restriction factors or unknown risks, the waste of software upgrading resources of the medical equipment is very high.
Accordingly, there is a need for a medical device system upgrade method or apparatus that does not rely on a service engineer while ensuring the quality of the upgrade.
Disclosure of Invention
In view of the above problems in the process of upgrading the medical equipment system, the present invention provides a method and an apparatus for upgrading a medical equipment system, which can automatically upgrade the medical equipment system during idle time (e.g., at night) of the medical equipment by using one upgrading apparatus, thereby reducing the dependence on service engineers, and avoiding the occupation of the service time (e.g., in the daytime) of the medical equipment system due to the upgrade of the medical equipment system.
In order to achieve the purpose of the invention, the technical scheme provided by the invention is as follows:
a medical device system upgrade method, the method comprising: determining that an upgrading device is accessed to a medical equipment system to obtain a first determination result, wherein an upgrading program is stored in the upgrading device; automatically upgrading the medical equipment system according to the first determination result; determining that the upgrading is completed to obtain a second determination result; according to the second determination result, erasing intermediate data generated in the upgrading process or the upgrading program; and disconnecting the upgrade apparatus from the medical device system according to the second determination result.
In the present invention, the method further comprises: automatically correcting the medical device system according to the second determination result.
In the present invention, automatically calibrating the medical device system comprises: mechanically correcting a bed of the medical device; and/or mechanically correct the housing of the medical device.
In the present invention, the obtaining the first determination result includes at least one of: determining that the upgrade device matches the medical device system; determining that the medical device system is in an idle state; or determining that a preset upgrade start time is reached.
In the present invention, the automatically upgrading the medical device system includes at least one of: automatically upgrading a database of the medical device system; automatically modifying a configuration file of the medical device system; automatically reconditioning the medical device system; automatically upgrading the operating system; or automatically upgrade an application of the medical device system.
In the present invention, said automatically upgrading said medical device system according to said first determination result comprises: automatically checking system configuration; automatically checking the software configuration; automatically formulating at least one upgrade step according to the system configuration and/or software configuration; and automatically upgrading the medical equipment system according to the upgrading step.
In the present invention, the automatically formulating the upgrade step according to the system configuration and/or the software configuration includes: automatically skipping one or more of the predefined upgrade steps; and/or automatically adjusting the execution order of the predefined upgrade steps.
In the present invention, the determining that the upgrade is completed and obtaining the second determination result includes: determining that the upgrading device completes upgrading the medical equipment system; and/or determining that the upgrading device has completed a preset number of upgrades.
In the present invention, the method further comprises: copying the upgrade program in the upgrade apparatus to the medical device system.
A medical device system upgrade apparatus comprising a portable storage device having an upgrade program stored therein, the upgrade apparatus comprising: the judging module is used for determining that the upgrading device is accessed to the medical equipment system to obtain a first determination result, and determining that the upgrading is finished to obtain a second determination result; the upgrading module is used for automatically upgrading the medical equipment system according to the first determination result; the erasing module is used for erasing the intermediate data or the upgrading program generated in the upgrading process according to the second determination result; and a disconnection module for disconnecting the upgrade apparatus from the medical device system.
In the present invention, the upgrade apparatus further includes: and the correction module is used for automatically correcting the medical equipment system according to the second determination result.
A computer-readable storage medium storing computer instructions, wherein when the computer instructions in the storage medium are read by a computer, the computer operates as follows: determining that an upgrading device is accessed to a medical equipment system to obtain a first determination result, wherein an upgrading program is stored in the upgrading device; automatically upgrading the medical equipment system according to the first determination result; determining that the upgrading is completed to obtain a second determination result; according to the second determination result, erasing intermediate data generated in the upgrading process or the upgrading program; and disconnecting the upgrade device from the medical device system.
A medical device system upgrade apparatus, the apparatus comprising an upgrade program, the upgrade program being executed by: determining that the upgrading device is accessed to the medical equipment system to obtain a first determination result; automatically upgrading the medical equipment system according to the first determination result; determining that the upgrading is completed to obtain a second determination result; according to the second determination result, erasing intermediate data generated in the upgrading process or the upgrading program; and disconnecting the upgrade device from the medical device system.
Compared with the prior art, the invention has the following beneficial effects:
firstly, the upgrading process does not need human participation, reduces the dependence on service engineers, avoids the risk of human error, and simultaneously avoids the occupation of the service time of medical equipment due to the upgrading of a medical equipment system;
secondly, the medical equipment system is independently identified, and the specified upgrading device can only be read by the matched medical equipment system, so that the risk of information leakage is greatly reduced;
thirdly, an upgrading step can be automatically formulated according to system configuration;
and fourthly, after the medical equipment system is successfully upgraded, the upgrading equipment can automatically delete intermediate data or upgrading programs generated in the upgrading process, so that the risk of information leakage is greatly reduced.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below. It is obvious that the drawings in the following description are only some embodiments of the application, and that it is also possible for a person skilled in the art to apply the application to other similar scenarios without inventive effort on the basis of these drawings. Unless otherwise apparent from the context of language or otherwise indicated, like reference numerals in the figures refer to like structures and operations.
FIG. 1 is a schematic diagram of an upgrade system according to some embodiments of the invention.
FIG. 2 is an architecture of a computer device according to some embodiments of the invention.
FIG. 3 is an exemplary block diagram of an upgrade apparatus according to some embodiments of the invention.
FIG. 4 is an exemplary flow chart of medical device system upgrades according to some embodiments of the present invention.
FIG. 5 is an exemplary flow diagram of automatic upgrade according to some embodiments of the invention.
Detailed Description
The invention is further described by means of specific embodiments in conjunction with the accompanying drawings.
FIG. 1 is a schematic diagram of an upgrade system 100 according to some embodiments of the invention. The upgrade system 100 includes an upgrade apparatus 110, a medical device system 120, and a network 130.
In some embodiments, the upgrade device 110 may be a portable storage device. The storage device may include, but is not limited to, a storage medium such as a Universal Serial Bus (USB) flash drive, a removable hard disk, a Compact Disc (CD), a magnetic disk, a floppy disk, and a cloud disk. The upgrade apparatus 110 may store therein an upgrade program for upgrading the medical device system 120 and/or a correction program for automatically correcting the medical device system 120.
The upgrade apparatus 110 is manufactured by a medical equipment manufacturer. In some embodiments, different types of medical equipment systems (e.g., magnetic resonance imaging systems, computed tomography systems, X-ray imaging systems, etc.) may require different upgrades, and thus may require corresponding different upgrades. In some embodiments, different hospitals may have different upgrade requirements for the same type of medical equipment system, and thus different hospitals may need to correspond to different upgrade apparatuses. For example, a medical equipment manufacturer may preset the number of upgrades equal to the number of medical equipment systems of the same type that a hospital needs to upgrade when making the upgrade apparatus 110.
The medical device system 120 may control the operation of the medical devices, process data generated by the medical devices, and the like. For example, a Computed Tomography (CT) system may control rotation of a CT scanner gantry, movement of a patient table, radiation emission, etc., and may also process data generated by the CT scanner to generate CT images.
The medical devices may include, but are not limited to, medical imaging devices, therapeutic devices, and the like. The medical Imaging apparatus includes, but is not limited to, a Computed Tomography (CT) apparatus, a Magnetic Resonance Imaging (MRI) apparatus, a Positron Emission Computed Tomography (PET) apparatus, and the like. Including but not limited to radiation therapy devices and the like.
The network 130 may be a single network or a combination of networks. Network 130 may include, but is not limited to, one or a combination of local area networks, wide area networks, public networks, private networks, wireless local area networks, virtual networks, metropolitan area networks, public switched telephone networks, and the like. The network 130 may include a variety of network access points, such as wired or wireless access points, base stations, or network switching points, through which data sources are connected to the network 130 and transmit information through the network.
In some embodiments, the upgrade apparatus 110 and the medical device system 120 may be connected directly or via a network 130. For example, the upgrade apparatus 110 may access the medical device system 120 through an interface. The interface may include a USB interface, an optical drive, a slot, etc. of the medical device system 120. As another example, the upgrade program and/or the correction program may be downloaded from the upgrade apparatus 110 to the medical device system 120 via the network 130.
It should be noted that the above-mentioned description is only a specific embodiment of the present invention and should not be considered as the only embodiment. A person skilled in the art can, without additional effort, make modifications to the method in this example, which modifications are still within the scope of protection of the present application.
FIG. 2 is an architecture of a computer device according to some embodiments of the invention. The medical device system 120 may be implemented by the computer device through its hardware devices, software programs, firmware, and combinations thereof. As shown in FIG. 2, the computer device architecture includes an internal communication bus 210, a hard disk 220, input/output components 230, a communication port 240, Random Access Memory (RAM)250, Read Only Memory (ROM)260, and a processor 270. Wherein the internal communication bus 210 may be used for communication of the computer device architecture. The hard disk 220, Random Access Memory (RAM)250, Read Only Memory (ROM)260, and the like are used to store various information and/or data and program instructions used by the computer architecture for processing or communication. The communication port 240 may be connected to a network capable of data communication. The processor 270 is configured to execute program instructions, for example, the processor 270 may execute the upgrade program and/or the correction program. The processor 270 may include one or more processing elements or devices, such as a Central Processing Unit (CPU), a Data Signal Processor (DSP), a system on a chip (SoC), a Microcontroller (MCU), or the like. The processor 270 may be a server for accessing stored information and/or data. The server may be local or remote. The input/output component 230 is used to support information and/or data interaction between the computer device architecture and the outside (e.g., a user). For example, the input/output component 230 may input data to the processor 270, or may receive data output by the processor 270 and represent the output data in the form of numbers, characters, images, sounds, and the like.
FIG. 3 is an exemplary block diagram of an upgrade apparatus according to some embodiments of the invention. The upgrade apparatus 110 may include a determination module 310, an upgrade module 320, a correction module 330, an erase module 340, a disconnection module 350, and a copy module 360.
The determination module 310 may be used to perform the determination and determination functions. In some embodiments, the determination module 310 may determine that the upgrade apparatus 110 accesses the medical device system 120, resulting in a first determination. The first determination result may include one or a combination of determining that the upgrade apparatus 110 matches the medical device system 120, determining that the medical device system 120 is in an idle state, determining that a preset upgrade start time is reached, and the like. In some embodiments, the determining module 310 may determine that the upgrade is completed, resulting in a second determination. The second determination may include determining that the upgrade apparatus 110 completed the upgrade of the current medical device system, and/or determining that the upgrade apparatus 110 has completed a preset number of upgrades. The number of upgrades may be preset by the medical equipment manufacturer when the upgrade device 110 is manufactured. The preset number of upgrades may be equal to the number of medical device systems of the same type that the hospital needs to upgrade.
The upgrade module 320 may be used to automatically upgrade the medical device system 120. Automatically upgrading the medical device system may include at least one of: automatically upgrading a database of the medical device system; automatically modifying a configuration file of the medical device system; automatically reconditioning the medical device system; automatically upgrading the operating system; or automatically upgrade an application of the medical device system.
The calibration module 330 may be used to automatically calibrate the medical device system 120. When it is determined that the current medical device system is upgraded, the calibration module 330 may automatically calibrate the current medical device system. In some embodiments, the calibration module 330 may automatically calibrate the medical equipment system 120, such as mechanical calibration of a patient bed, mechanical calibration of a gantry, etc., according to a calibration program stored in the upgrade 110. In some embodiments, correction module 330 may only perform auto-corrections on upgraded components in medical device system 120, and non-upgraded components may not perform auto-corrections. In some embodiments, the corrections performed by the correction module 330 may not include corrections that require human intervention, for example, corrections that require a payoff operation.
The erase module 340 may be used to erase intermediate data and/or upgrade programs generated during an upgrade process. For example, when the determination module 310 determines that the current medical device system is upgraded, the erasing module 340 may erase the intermediate data generated by the upgrade process. For another example, after the upgrade device 110 finishes upgrading a medical device system, the upgrade module 320 may count once, and after the determination module 310 determines that the upgrade device 110 has finished the preset number of upgrades, the erase module 340 may erase the upgrade program and/or the intermediate data generated during the upgrade process.
The disconnection module 350 may be used to disconnect the upgrade 110 from the medical device system 120. In some embodiments, the disconnection module 350 may disconnect the upgrade 110 from the medical device system 120 if the upgrade 110 does not match the medical device system 120. In some embodiments, the disconnection module 350 may disconnect the upgrade apparatus 110 from the medical device system 120 if the number of upgrade failures is greater than a preset threshold (e.g., 3). In some embodiments, the disconnection module 350 may disconnect the upgrade apparatus 110 from the medical device system 120 after the successful upgrade of the medical device system 120, when the erasure module 340 completes the erasure of the intermediate data and/or upgrade software and the correction module 330 completes the correction of the medical device system 120.
In some embodiments, the disconnection manner may include ejecting the optical drive from the medical device system 120, ejecting the USB disk from the USB interface of the medical device system 120, disconnecting the network connection between the upgrade apparatus 110 and the medical device system 120, and the like. The disconnection may include automatic disconnection, disconnection after receiving an instruction from a user, and the like.
The copy module 360 may be used to automatically copy the upgrade program in the upgrade apparatus 110 to the medical device system 120.
It is to be noted that the above description of the upgrading apparatus 110 is only an example, and those skilled in the art can modify the method in this example without additional labor, and the modification still remains within the scope of the present application. For example, the replication module 360 may be an optional module.
FIG. 4 is an exemplary flow chart of medical device system upgrades according to some embodiments of the present invention.
In 410, the determination module 310 may determine that the upgrade apparatus 110 accesses the medical device system 120, resulting in a first determination. The upgrade apparatus 110 may be a portable storage apparatus, such as a usb disk, a removable hard disk, a Compact Disc (CD), a magnetic disk, a floppy disk, a cloud disk, and the like. The upgrade apparatus 110 may store an upgrade program for performing a system upgrade of a medical device. The upgrade 110 may also store a calibration program for automatically calibrating a medical device system.
The accessing may include inserting a USB disk or a removable hard drive into a USB interface of the medical device system 120, placing an optical disk into an optical drive of the medical device system 120, inserting the upgrading apparatus 110 into a slot of the medical device system 120, or downloading the upgrading program and/or the calibration program in the upgrading apparatus 110 into the medical device system 120 via the network 130, etc.
In some embodiments, the first determination may include one or a combination of determining that the upgrade apparatus 110 matches the medical device system 120, determining that the medical device system 120 is in an idle state, determining that a preset upgrade start time is reached, and the like. In some embodiments, the medical device system 120 that is matched to the upgrade apparatus 110 may identify the upgrade apparatus 110. For example, if the manufacturer of the upgrade apparatus 110 is different from the manufacturer of the medical device system 120, the medical device system 120 cannot identify the upgrade apparatus 110. For another example, if the type of the medical equipment system corresponding to the upgrade apparatus 110 is different from the type of the medical equipment system 120 (for example, the upgrade apparatus 110 corresponds to a CT system, and the medical equipment system 120 is an MRI system), the medical equipment system 120 cannot identify the upgrade apparatus 110. In some embodiments, the disconnection module 350 may disconnect the upgrade 110 from the medical device system 120 if the determination module 310 determines that the upgrade 110 does not match the medical device system 120.
In some embodiments, after the upgrade apparatus 110 accesses the medical device system 120, a user (e.g., a service engineer, a doctor, etc.) may set an upgrade start time. When the determination module 310 determines that the system time of the medical device system 120 reaches the upgrade start time, the upgrade module 320 may automatically upgrade the medical device system 120. In some embodiments, after the upgrading apparatus 110 accesses the medical device system 120, if the user does not set the upgrade start time, the determining module 310 may determine whether the medical device system 120 is in an idle state. If the decision module 310 determines that the medical device system 120 is in an idle state, the upgrade module 320 may automatically upgrade the medical device system 120. In 420, the upgrade module 320 may automatically upgrade the medical device system 120 based on the first determination. In some embodiments, the upgrade of the medical device system 120 may include: upgrading a database of the medical device system 120, modifying a configuration file of the medical device system 120, repairing the medical device system 120, upgrading the medical device system 120, or upgrading an application of the medical device system 120.
In some embodiments, the upgrade module 320 may automatically renew the medical device system 120 if the upgrade fails. The disconnection module 350 may disconnect the upgrade apparatus 110 from the medical device system 120 if the number of upgrade failures is greater than a preset threshold (e.g., 3).
At 430, the determining module 310 may determine that the upgrade is complete, resulting in a second determination. The second determination may include determining that the upgrade apparatus 110 completed the upgrade of the current medical device system, and/or determining that the upgrade apparatus 110 has completed a preset number of upgrades. The number of upgrades may be preset by the medical equipment manufacturer when the upgrade device 110 is manufactured. The preset number of upgrades may be equal to the number of medical device systems of the same type that the hospital needs to upgrade.
In 440, the correction module 330 may automatically correct the medical device system 120 based on the second determination. When it is determined that the current medical device system is upgraded, the calibration module 330 may automatically calibrate the current medical device system. In some embodiments, the calibration module 330 may automatically calibrate the medical device system 120 according to the calibration procedure, such as mechanical calibration of a patient bed, mechanical calibration of a gantry, and so forth. The belt of the motor encoder in the sickbed can cause the encoding position to be inconsistent with the actual position of the sickbed due to aging. In the mechanical calibration process of the hospital bed, the calibration module 330 can re-match the corresponding relationship between the current encoder and the actual position of the hospital bed by controlling the horizontal and vertical movement of the hospital bed and the stepping movement of the hospital bed, so that the hardware system can accurately control the displacement of the hospital bed in the clinical workflow. In some embodiments, correction module 330 may only perform auto-corrections on upgraded components in medical device system 120, and non-upgraded components may not perform auto-corrections. In some embodiments, the correction in step 440 may not include a correction that requires human intervention, for example, a correction that requires a payoff operation.
In 450, the erase module 340 may erase the intermediate data and/or the upgrade program generated by the upgrade process according to the second determination result. In some embodiments, the erasing module 340 may erase the intermediate data generated in the upgrade process each time the upgrade is completed. For example, when the determining module 310 determines that the current medical device system is upgraded, the erasing module 340 may erase the intermediate data generated in the upgrading process. In some embodiments, the erase module 340 may erase all intermediate data generated by the upgrade process after the last upgrade is completed. For example, after the upgrade device 110 finishes upgrading a medical device system, the upgrade module 320 may count once, and after the determination module 310 determines that the upgrade device 110 has finished upgrading for a preset number of times, the erase module 340 may erase the upgrade program and/or all intermediate data generated during the upgrade process.
At 460, after the medical device system 120 is successfully upgraded, the disconnection module 350 may disconnect the upgrade apparatus 110 from the medical device system 120 after the erase module 340 completes the erasing of the intermediate data and/or the upgrade software and the correction module 330 completes the correction of the medical device system 120. The disconnection module 350 may disconnect the upgrade 110 from the medical device system 120. In some embodiments, the disconnection manner may include ejecting the optical drive from the medical device, ejecting the USB disk from the USB interface of the medical device, disconnecting the network connection between the upgrade apparatus 110 and the medical device system 120, and the like. In some embodiments, the disconnection module 350 may automatically disconnect the upgrade apparatus 110 from the medical device system 120. The disconnection module 350 may also send a prompt to a user (e.g., a service engineer, a doctor, etc.) prompting the user whether to disconnect the upgrade apparatus 110 from the medical device system 120. The disconnection module 350 may disconnect the upgrade apparatus 110 from the medical device system 120 upon receiving a disconnection command from a user.
It is to be noted that the above description of the method for upgrading a medical device system is only an example, and those skilled in the art may modify the method in this example without additional effort, and still be within the scope of the present application. For example, step 430 may be omitted and the medical device system may not be automatically calibrated after the upgrade is complete, but may be manually calibrated before use of the medical device system. As another example, the operations 400 may further include a copying step, and the copying module 360 may automatically copy the upgrade program and/or the correction program in the upgrade apparatus 110 to the medical device system 120 after the determination module 310 determines that the upgrade apparatus 110 accesses the medical device system 120.
FIG. 5 is an exemplary flow diagram of automatic upgrade according to some embodiments of the invention.
In 510, the upgrade module 320 may automatically check the system configuration. The checking system configuration may include checking hardware versions, hardware drivers, and the like. Specifically, the upgrade module 320 may automatically check a Wedge filter, a ray receiver, a dcb (data Control board) board, an sib (status Interface board) board, an ACQ board, and the like. In addition, the upgrade module 320 may also check the hardware system configuration of the medical device system such as a main control computer (Console PC) and a hospital bed.
In 520, the upgrade module 320 may automatically check the software configuration. The checking of the software configuration may include checking a software version (e.g., a software version number currently used for installation), checking a configuration file version (e.g., GantrySW, ConsoleSW, ReconSW, a common software platform version, a database configuration table, etc.), and the like.
At 530, the upgrade module 320 may automatically enact at least one upgrade step based on the system configuration and/or the software configuration. The upgrade module 320 may formulate upgrade steps appropriate for the system configuration and/or software configuration based on the system configuration and/or software configuration. The upgrade module 320 may perform the predefined upgrade steps to upgrade the medical device system, or may modify the predefined upgrade steps and perform the modified upgrade steps to upgrade the medical device system. Modifying the predefined upgrade may include: automatically skipping one or more of the predefined upgrade steps; and/or automatically adjusting the execution order of the predefined upgrade steps. For example, if the upgrade module 320 checks that the hardware driver version of the medical device system is too low, the upgrade steps formulated by the upgrade module 320 may include a step of upgrading the hardware driver of the medical device system in a predefined upgrade step; if the upgrade module 320 checks that the hardware driver of the medical device system is the latest version, the upgrade module 320 may schedule an upgrade procedure that omits the procedure of upgrading the hardware driver of the medical device system in the predefined upgrade procedure. For another example, if the upgrade module 320 detects a defect in the software program, the upgrade steps established by the upgrade module 320 may include steps of repairing the software program of the medical device system in the predefined upgrade steps; if the upgrade module 320 detects that the software program is normal, the upgrade module 320 may schedule an upgrade procedure that omits the step of repairing the medical device system software program in the predefined upgrade procedure.
At 540, the upgrade module 320 may automatically upgrade the medical device system 120 according to the upgrade steps.
It should be noted that the above description of the automatic upgrade method of the upgrade apparatus is only an example, and those skilled in the art may modify the method in this example without additional labor, and the modification still falls within the scope of the present application. For example, step 510 may be performed before step 520, after step 520, or simultaneously with step 520.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (8)
1. A medical device system upgrade method, performed by an upgrade apparatus having an upgrade program and a correction program stored therein, the method comprising:
determining that the upgrading device is accessed to a medical equipment system to obtain a first determination result;
automatically upgrading the medical equipment system according to the first determination result;
determining that the upgrading is completed to obtain a second determination result, wherein the second determination result comprises that the upgrading device is determined to have completed preset upgrading times, and the preset upgrading times are the number of the medical equipment systems of the same type needing upgrading;
according to the second determination result, erasing intermediate data generated in the upgrading process or the upgrading program;
automatically correcting the medical equipment system according to the second determination result and the correction program; and
disconnecting the upgrade device from the medical device system.
2. The medical device system upgrade method according to claim 1, wherein automatically correcting the medical device system comprises:
mechanically calibrating a patient bed of a medical device system; and/or
A mechanical calibration is performed on a gantry of a medical device system.
3. The medical device system upgrade method according to claim 1, wherein said obtaining the first determination comprises at least one of:
determining that the upgrade device matches the medical device system;
determining that the medical device system is in an idle state; or
And determining that the preset upgrade starting time is reached.
4. The medical device system upgrade method according to claim 1, wherein the automatically upgrading the medical device system comprises at least one of:
automatically upgrading a database of the medical device system;
automatically modifying a configuration file of the medical device system;
automatically reconditioning the medical device system;
automatically upgrading the operating system; or
Automatically upgrading an application of the medical device system.
5. The medical device system upgrade method according to claim 1, wherein the automatically upgrading the medical device system according to the first determination comprises:
automatically checking system configuration;
automatically checking the software configuration;
automatically enacting at least one upgrade step based on at least one of the system configuration and the software configuration; and
and automatically upgrading the medical equipment system according to the upgrading step.
6. The medical device system upgrade method according to claim 5, wherein said automatically formulating at least one upgrade step according to at least one of the system configuration and the software configuration comprises:
automatically skipping one or more of the predefined upgrade steps; and/or
Automatically adjusting an execution order of the predefined upgrade steps.
7. The medical device system upgrade method of claim 1, wherein the determining that the upgrade is complete, resulting in the second determination comprises:
determining that the upgrading device completes upgrading the medical equipment system; and/or
And determining that the upgrading device finishes the preset upgrading times.
8. A medical equipment system upgrading device is a portable storage device, an upgrading program and a correction program are stored in the upgrading device, and the upgrading device comprises:
the judging module is used for determining that the upgrading device is accessed to the medical equipment system to obtain a first determination result, determining that upgrading is completed to obtain a second determination result, wherein the second determination result comprises the number of times of upgrading which is determined that the upgrading device completes the preset upgrading, and the preset upgrading number is the number of the medical equipment systems of the same type which need to be upgraded;
the upgrading module is used for automatically upgrading the medical equipment system according to the first determination result;
the erasing module is used for erasing the intermediate data or the upgrading program generated in the upgrading process according to the second determination result;
the correction module is used for automatically correcting the medical equipment system according to the second determination result and the correction program; and
a disconnection module to disconnect the upgrade device from the medical device system.
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| CN112397190A (en) * | 2019-08-14 | 2021-02-23 | 深圳迈瑞生物医疗电子股份有限公司 | Medical equipment system in hospital and equipment management method thereof |
| CN114827107A (en) * | 2022-04-28 | 2022-07-29 | 中国银行股份有限公司 | Software upgrading method and device |
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