阅读说明：本技术 一种宠物专用智能远程mri核磁共振系统 (Special intelligent remote MRI nuclear magnetic resonance system for pets ) 是由 张汉群 罗国涛 曹赣林 于 2021-09-06 设计创作，主要内容包括：本发明属于宠物检测技术领域,尤其是一种宠物专用智能远程MRI核磁共振系统,包括智能远程终端、其他用户终端、云端服务器模块和核磁共振系统,所述核磁共振系统包括有磁共振扫描仪、磁共振谱仪、梯度放大器、多通道射频线圈、数据处理模块、故障诊断模块、实验过程监控模块、网络模块和设备连接模块。本发明提供了一种基于云端技术的宠物核磁共振系统,可实现远程操作核磁检测工作,通过实验监控模块对宠物的状态进行观察和拍摄,可以让宠物主人陪伴在宠物的身边,降低了宠物的恐惧感,核磁扫描仪所检测到的信息都会通过数据处理模块最终传输至显示屏中,医生可以通过观察显示屏判断出宠物的核磁检测结构,增加了检测的安全性和准确度。(The invention belongs to the technical field of pet detection, and particularly relates to an intelligent remote MRI nuclear magnetic resonance system special for pets, which comprises an intelligent remote terminal, other user terminals, a cloud server module and a nuclear magnetic resonance system, wherein the nuclear magnetic resonance system comprises a magnetic resonance scanner, a magnetic resonance spectrometer, a gradient amplifier, a multi-channel radio-frequency coil, a data processing module, a fault diagnosis module, an experiment process monitoring module, a network module and an equipment connection module. The invention provides a pet nuclear magnetic resonance system based on a cloud technology, which can realize remote operation nuclear magnetic detection work, the state of a pet is observed and shot through an experiment monitoring module, a pet owner can accompany the pet, the fear of the pet is reduced, information detected by a nuclear magnetic scanner can be finally transmitted to a display screen through a data processing module, a doctor can judge the nuclear magnetic detection structure of the pet by observing the display screen, and the safety and the accuracy of detection are improved.)

1. An intelligent remote MRI nuclear magnetic resonance system special for pets comprises an intelligent remote terminal, other user terminals, a cloud server module and a nuclear magnetic resonance system, and is characterized in that the nuclear magnetic resonance system comprises a magnetic resonance scanner, a magnetic resonance spectrometer, a gradient amplifier, a multi-channel radio frequency coil, a data processing module, a fault diagnosis module, an experimental process monitoring module, a network module and an equipment connection module;

the intelligent remote terminal: the method comprises the following steps that for an equipment terminal for Web browser surfing, interactive operation is carried out on the equipment terminal and a cloud server module through an Internet network, the cloud server module is managed and maintained, and data of the cloud server module is checked and used; the user terminal is an equipment terminal for Web browser surfing, and browses, checks and downloads data of the cloud server module through identity recognition of the cloud server module;

the cloud server module: the system is connected with a nuclear magnetic resonance system through a WiFi/4G network, and is used for setting parameters of the nuclear magnetic resonance system, checking the running state, storing and inverting and explaining data acquired by the nuclear magnetic resonance system, performing remote fault diagnosis and long-term data storage and running maintenance on the nuclear magnetic resonance system, and being respectively connected with an intelligent remote terminal and a user terminal, so that a manager can check and use the nuclear magnetic resonance system and browse and download the nuclear magnetic resonance data;

the nuclear magnetic resonance system comprises: the nuclear magnetic resonance system is connected with the cloud server module through the WiFi/4G network, the control instruction of the cloud server module is received, the running state is transmitted to the cloud server module in real time, the received data are stored and transmitted to the cloud server module at the same time, and the nuclear magnetic resonance system is communicated with the data transfer server through the WiFi or 4G network, so that data among the nuclear magnetic resonance systems are mutually transmitted and the state is shared.

2. The pet-specific intelligent remote MRI nuclear magnetic resonance system of claim 1, wherein the magnetic resonance scanner comprises a magnet, a gradient coil, and a receive coil, the gradient amplifier: and outputting a coding gradient to drive a gradient coil to code the scanned object according to the gradient waveform output by the magnetic resonance spectrometer.

3. The pet-specific intelligent remote MRI nuclear magnetic resonance system of claim 1, wherein the multi-channel radio frequency coil: at least two radio frequency coils are adjacently arranged and used for generating and receiving nuclear Magnetic Resonance (MR) signals.

4. The pet-specific intelligent remote MRI nuclear magnetic resonance system according to claim 1, wherein the data processing module comprises data superposition processing, data inversion processing, data verification processing and diagnosis result processing, the data detected by the pet are firstly superposed and inverted, then the result obtained by superposition and inversion processing and normal data are compared and verified, finally the diagnosis result is processed, and the processed diagnosis result is output to the display screen of the experimental process monitoring module.

5. The pet-specific intelligent remote MRI nuclear magnetic resonance system according to claim 4, wherein the experimental process monitoring module comprises a camera for monitoring, displaying pet parameters and displaying diagnosis results, when performing nuclear magnetic resonance detection on a pet, the camera is firstly used for monitoring, the nuclear magnetic resonance scanner performs scanning detection on the pet, and the display screen displays the scanned pet parameters and the diagnosis results processed by the data processing module.

6. The intelligent remote MRI nuclear magnetic resonance system special for pets according to claim 1, wherein after the nuclear magnetic resonance system obtains basic information of a pet needing nuclear magnetic resonance detection in detection, spectral parameter type information matched with the basic information of the pet to be detected is determined, and the spectral parameter type information is sent to a server through the data processing module; and the server generates corresponding nuclear magnetic resonance interaction information according to the spectrum parameter type information and sends the nuclear magnetic resonance interaction information to the nuclear magnetic resonance system through the data processing module.

7. The pet-specific intelligent remote MRI nuclear magnetic resonance system according to claim 6, wherein the nuclear magnetic resonance system performs nuclear magnetic resonance detection after configuring the detection task according to the nuclear magnetic resonance interaction information, and performs corresponding nuclear magnetic resonance interaction operation with the server through the data processing module during detection.

8. The pet-specific intelligent remote MRI nuclear magnetic resonance system according to claim 1, wherein the failure diagnosis module receives and processes the data result processed by the data verification module, and the failure diagnosis module sends a failure diagnosis control command to the nuclear magnetic resonance detection system to prompt the nuclear magnetic resonance system to fail.

Technical Field

The invention relates to the technical field of pet detection, in particular to an intelligent remote MRI nuclear magnetic resonance system special for pets.

Background

The principle of nuclear magnetic resonance imaging (MRI for short) is that the characteristic of the spin motion of hydrogen nuclei (hydrogen atoms) in human tissues is utilized, electromagnetic induction signals are generated by the excitation of radio frequency pulses under the action of an external enhanced magnetic field, and a nuclear magnetic resonance image is formed through corresponding data reconstruction. The uniform strong magnetic field in the imaging range is a precondition of nuclear magnetic resonance imaging, and the uniformity of the magnetic field can generate disturbance due to the complexity of human tissues after the human tissues enter the magnetic field, so that the uniformity of the magnetic field in the imaging range is reduced, and the uniformity compensation, namely shimming, needs to be carried out on the magnetic field in the imaging process.

The nuclear magnetic resonance special for animal scanning is few and single in function, and in the scanning process, the nuclear magnetic resonance designs for pet scanning in various forms have insufficient openness, so that the observation of a doctor on the pet state is influenced, and the pet scanning is relatively claustrophobic due to the closed space, so that the doctor cannot accurately detect.

Disclosure of Invention

Based on the technical problems that in the scanning process, various nuclear magnetic resonance designs for pet scanning in various forms are insufficient in openness, observation of a doctor on the state of a pet is influenced, and due to the closed space, the pet scanning is relatively claustrophobic, so that the doctor cannot accurately detect.

The invention provides an intelligent remote MRI nuclear magnetic resonance system special for pets, which comprises an intelligent remote terminal, other user terminals, a cloud server module and a nuclear magnetic resonance system, wherein the nuclear magnetic resonance system comprises a magnetic resonance scanner, a magnetic resonance spectrometer, a gradient amplifier, a multi-channel radio frequency coil, a data processing module, a fault diagnosis module, an experiment process monitoring module, a network module and an equipment connection module;

the intelligent remote terminal: the method comprises the following steps that for an equipment terminal for Web browser surfing, interactive operation is carried out on the equipment terminal and a cloud server module through an Internet network, the cloud server module is managed and maintained, and data of the cloud server module is checked and used; the user terminal is an equipment terminal for Web browser surfing, and browses, checks and downloads data of the cloud server module through identity recognition of the cloud server module;

the cloud server module: the system is connected with a nuclear magnetic resonance system through a WiFi/4G network, and is used for setting parameters of the nuclear magnetic resonance system, checking the running state, storing and inverting and explaining data acquired by the nuclear magnetic resonance system, performing remote fault diagnosis and long-term data storage and running maintenance on the nuclear magnetic resonance system, and being respectively connected with an intelligent remote terminal and a user terminal, so that a manager can check and use the nuclear magnetic resonance system and browse and download the nuclear magnetic resonance data;

the nuclear magnetic resonance system comprises: the nuclear magnetic resonance system is connected with the cloud server module through the WiFi/4G network, the control instruction of the cloud server module is received, the running state is transmitted to the cloud server module in real time, the received data are stored and transmitted to the cloud server module at the same time, and the nuclear magnetic resonance system is communicated with the data transfer server through the WiFi or 4G network, so that data among the nuclear magnetic resonance systems are mutually transmitted and the state is shared.

Preferably, the magnetic resonance scanner comprises a magnet, a gradient coil and a receive coil, the gradient amplifier: and outputting a coding gradient to drive a gradient coil to code the scanned object according to the gradient waveform output by the magnetic resonance spectrometer.

Preferably, the multi-channel radio frequency coil: at least two radio frequency coils are adjacently arranged and used for generating and receiving nuclear Magnetic Resonance (MR) signals.

Preferably, the data processing module comprises data superposition processing, data inversion processing, data verification processing and diagnosis result processing, the data detected by the pet are superposed and inverted firstly, then the result obtained by the superposition and inversion processing and normal data are compared and verified, finally, the diagnosis result is processed, and the processed diagnosis result is output to a display screen of the experimental process monitoring module.

Preferably, the experimental process monitoring module comprises a camera for monitoring, displaying pet parameters and displaying diagnosis results, when the nuclear magnetic resonance detection is performed on the pet, the camera is firstly used for monitoring, the nuclear magnetic resonance scanner is used for scanning and detecting the pet, and the display screen displays the scanned pet parameters and the diagnosis results processed by the data processing module.

Preferably, after the nuclear magnetic resonance system obtains the basic information of the pet needing nuclear magnetic resonance detection in the detection, determining the spectrum parameter type information matched with the basic information of the pet to be detected, and sending the spectrum parameter type information to a server through the data processing module; and the server generates corresponding nuclear magnetic resonance interaction information according to the spectrum parameter type information and sends the nuclear magnetic resonance interaction information to the nuclear magnetic resonance system through the data processing module.

Preferably, the nuclear magnetic resonance system configures the detection task according to the nuclear magnetic resonance interaction information, then performs nuclear magnetic resonance detection, and performs corresponding nuclear magnetic resonance interaction operation with the server through the data processing module during the detection process.

Preferably, the fault diagnosis module receives the data result processed by the data processing and verifying module, and the fault diagnosis module sends a fault diagnosis control command to the nuclear magnetic resonance detection system to prompt the nuclear magnetic resonance system to have a fault.

The beneficial effects of the invention are as follows:

1. this special long-range MRI nuclear magnetic resonance system of intelligence of pet, a pet nuclear magnetic resonance system based on high in the clouds technique is provided, can realize remote operation nuclear magnetic detection work, observe and shoot the state of pet through experiment monitoring module, can let the pet owner accompany the side at the pet, the sense of fear of pet has been reduced, the information that nuclear magnetic scanner detected all can pass through data processing module final transmission to the display screen in, the doctor can judge out the nuclear magnetic detection structure of pet through observing the display screen, the security and the degree of accuracy that have increased the detection, the management mode is also more intelligent, it is standardized.

2. According to the intelligent remote MRI nuclear magnetic resonance system special for the pet, the gradient amplifier is arranged, so that the influence of asymmetry of the gradient channel can be reduced, artifacts caused by the asymmetry of the gradient channel in oblique plane echo imaging can be effectively reduced or even eliminated, and the image quality is improved; after data are collected and images are reconstructed, the images are rotated to a preset angle, and therefore doctors can conveniently obtain cleaned images in the display screen.

3. The intelligent remote MRI nuclear magnetic resonance system special for the pet is provided with the multi-channel radio frequency coils, and at least two adjacent radio frequency coils are used for generating nuclear Magnetic Resonance (MR) signals and/or receiving the MR signals; the induced current of at least two radio frequency coils can be adjusted, the problem that the overlapping part between the coils of adjacent channels cannot be used for imaging, which can result in incomplete imaging is solved, and the imaging integrity is improved.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

FIG. 1 is a schematic structural diagram of an intelligent remote MRI nuclear magnetic resonance system dedicated for pets according to the present invention;

FIG. 2 is a schematic structural diagram of a magnetic resonance system of the intelligent remote MRI magnetic resonance system for pets according to the present invention;

FIG. 3 is a schematic structural diagram of a data processing module of the pet-specific intelligent remote MRI NMR system according to the present invention;

fig. 4 is a schematic structural diagram of an experimental process monitoring module of the intelligent remote MRI nuclear magnetic resonance system special for pets according to the present invention.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it is to be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the convenience of describing the patent and for the simplicity of description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the patent.

In the description of this patent, it is noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can include, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in this patent may be understood by those of ordinary skill in the art as appropriate.

Referring to fig. 1-4, an intelligent remote MRI nuclear magnetic resonance system dedicated for pets comprises an intelligent remote terminal, other user terminals, a cloud server module and a nuclear magnetic resonance system, wherein the nuclear magnetic resonance system comprises a magnetic resonance scanner, a magnetic resonance spectrometer, a gradient amplifier, a multi-channel radio frequency coil, a data processing module, a fault diagnosis module, an experimental process monitoring module, a network module and an equipment connection module;

the intelligent remote terminal: the method comprises the following steps that for an equipment terminal for Web browser surfing, interactive operation is carried out on the equipment terminal and a cloud server module through an Internet network, the cloud server module is managed and maintained, and data of the cloud server module is checked and used; the user terminal is an equipment terminal for Web browser surfing, and browses, checks and downloads data of the cloud server module through identity recognition of the cloud server module;

the cloud server module: the system is connected with a nuclear magnetic resonance system through a WiFi/4G network, and is used for setting parameters of the nuclear magnetic resonance system, checking the running state, storing and inverting and explaining data acquired by the nuclear magnetic resonance system, performing remote fault diagnosis and long-term data storage and running maintenance on the nuclear magnetic resonance system, and being respectively connected with an intelligent remote terminal and a user terminal, so that a manager can check and use the nuclear magnetic resonance system and browse and download the nuclear magnetic resonance data;

the nuclear magnetic resonance system comprises: the nuclear magnetic resonance system is connected with the cloud server module through the WiFi/4G network, the control instruction of the cloud server module is received, the running state is transmitted to the cloud server module in real time, the received data are stored and transmitted to the cloud server module at the same time, and the nuclear magnetic resonance system is communicated with the data transfer server through the WiFi or 4G network, so that data among the nuclear magnetic resonance systems are mutually transmitted and the state is shared.

In the present invention, the magnetic resonance scanner includes a magnet, a gradient coil, and a receiving coil, the gradient amplifier: and outputting a coding gradient to drive a gradient coil to code the scanned object according to the gradient waveform output by the magnetic resonance spectrometer.

In the present invention, the multi-channel radio frequency coil: at least two radio frequency coils are adjacently arranged and used for generating and receiving nuclear Magnetic Resonance (MR) signals.

The data processing module comprises data superposition processing, data inversion processing, data verification processing and diagnosis result processing, firstly, the data detected by the pet are superposed and inverted, then, the result obtained by the superposition and inversion processing and normal data are compared and verified, finally, the diagnosis result is processed, and the processed diagnosis result is output to a display screen of the experimental process monitoring module.

In the invention, the experimental process monitoring module comprises a camera for monitoring, displaying pet parameters and displaying diagnosis results, when the nuclear magnetic resonance detection is carried out on the pet, the camera is firstly used for monitoring, the nuclear magnetic resonance scanner carries out scanning detection on the pet, and the display screen displays the scanned pet parameters and the diagnosis results processed by the data processing module.

In the invention, after the nuclear magnetic resonance system obtains the basic information of a pet needing nuclear magnetic resonance detection in the detection, the spectrum parameter type information matched with the basic information of the pet to be detected is determined, and the spectrum parameter type information is sent to a server through the data processing module; and the server generates corresponding nuclear magnetic resonance interaction information according to the spectrum parameter type information and sends the nuclear magnetic resonance interaction information to the nuclear magnetic resonance system through the data processing module.

In the invention, the nuclear magnetic resonance system configures the detection task according to the nuclear magnetic resonance interaction information, then executes nuclear magnetic resonance detection, and performs corresponding nuclear magnetic resonance interaction operation with the server through the data processing module in the detection process.

In the invention, the fault diagnosis module receives the data result processed by the processing data verification module, and sends a fault diagnosis control command to the nuclear magnetic resonance detection system to prompt the nuclear magnetic resonance system to have a fault.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.