CN110742573A

CN110742573A - Capsule endoscope system

Info

Publication number: CN110742573A
Application number: CN201911040696.XA
Authority: CN
Inventors: 邬墨家; 王了; 袁建
Original assignee: Chongqing Jinshan Medical Technology Research Institute Co Ltd
Current assignee: Chongqing Jinshan Medical Technology Research Institute Co Ltd
Priority date: 2019-10-29
Filing date: 2019-10-29
Publication date: 2020-02-04

Abstract

The invention discloses a capsule endoscope system, comprising: a capsule endoscope, a relay device and a data terminal device; wherein: the relay device integrates a dual communication mode of short-range communication and long-range communication, receives the acquired data sent by the capsule endoscope through the short-range communication mode, and sends the acquired data to the data terminal device through the long-range communication mode. The relay equipment can establish short-range communication with the capsule type endoscope, acquire the data acquired by the capsule type endoscope through the short-range communication mode, establish remote communication with the data terminal equipment, and transmit the acquired data acquired by the capsule type endoscope to the data terminal equipment in time through the remote communication mode so as to analyze and process the data acquired by the capsule type endoscope in time, thereby quickly acquiring the inspection result of the capsule type endoscope and improving the user experience.

Description

Capsule endoscope system

Technical Field

The invention relates to the technical field of capsule endoscopes, in particular to a capsule endoscope system.

Background

With the continuous development of electronic technology, capsule endoscopes are widely used. At present, a capsule endoscope system mainly comprises a capsule endoscope and an image recorder carried by a patient, the capsule endoscope collects images, and the collected images are sent to the image recorder for storage in a radio frequency mode. After the patient finishes the examination and returns the image recorder, the doctor downloads the image data recorded in the image recorder, and then analyzes the downloaded image data to obtain an analysis result.

As can be seen, the existing capsule endoscope system can go through several processes of examination, data downloading, film reading and result outputting during the whole examination process, and the whole process is time-consuming.

Therefore, how to obtain the examination result of the capsule endoscope quickly is a problem to be solved.

Disclosure of Invention

In view of this, the invention provides a capsule endoscope system, which can transmit data acquired by a capsule endoscope to a data terminal device in time through a dual-mode communication technology integrating short-range communication and long-range communication, so as to analyze and process the data acquired by the capsule endoscope in time, thereby rapidly obtaining an inspection result of the capsule endoscope and improving user experience.

The present invention provides a capsule endoscope system, comprising: a capsule endoscope, a relay device and a data terminal device; wherein:

the relay device integrates a dual communication mode of short-range communication and long-range communication, receives the acquired data sent by the capsule type endoscope through the short-range communication mode, and sends the acquired data to the data terminal device through the long-range communication mode.

Preferably, the capsule type endoscope includes: the system comprises an acquisition module, a first signal processing module and a first short-range communication module; wherein: the first signal processing module receives and processes the acquired data acquired by the acquisition module and sends the acquired data to the first short-range communication module; the first short-range communication module sends the acquired data to the relay equipment;

the relay device includes: a second short-range communication module and a first long-range communication module; wherein: the relay device receives the acquired data sent by the first short-range communication module through the second short-range communication module and transmits the acquired data to the data terminal device through the first long-range communication module;

the data terminal device includes: a second telecommunications module and a display module; wherein: the second remote communication module receives and transmits the acquired data sent by the first remote communication module, and the acquired data are displayed through the display module.

Preferably, the acquisition module comprises: the system comprises an image acquisition module and a sensing acquisition module; wherein:

the image acquisition module is used for acquiring image data;

and the sensing acquisition module is used for acquiring sensing data.

Preferably, the image acquisition module comprises: the camera shooting module and the image processing module; the sensing acquisition module comprises: the attitude sensing submodule and the positioning sensing submodule; wherein:

the camera module is used for acquiring the image data;

the image processing module is used for processing the image data;

the attitude sensing submodule is used for acquiring attitude data;

and the positioning sensing submodule is used for acquiring position data.

Preferably, the data terminal device further includes: the system comprises a data management module, a storage module, a learning module and an intelligent film reading module;

the data management module classifies and indexes the acquired data according to a classification algorithm, divides the storage space of the storage module and appoints the storage position of the acquired data;

the storage module stores the acquired data in a classified manner;

the learning module acquires the acquired data from the storage module periodically for training to form a learning set; the learning result of the learning set is fed back to the data management module to update the classification algorithm;

and the intelligent film reading module compares the classified collected data with the pre-stored classified sample set to complete the identification, analysis and judgment of the focus and output a diagnosis report.

Preferably, the data management module classifies the collected data according to the image data and the sensing data according to a classification algorithm; and classifying the image data according to the image characteristics and the position data.

Preferably, the data terminal device further comprises a push module; and the pushing module feeds the diagnosis report back to the patient in combination with the treatment scheme and the medication information of the doctor.

Preferably, the pushing module collects daily life data of the patient by combining with cloud big data information, and pushes health care items, diet suggestions and medication reminders to the patient by combining with a diagnosis report, a treatment scheme and medication information.

Preferably, the daily life data includes: daily procurement data, diet data, body fat data, and exercise data.

Preferably, the relay device is further configured to receive a control instruction for controlling the capsule endoscope transmitted by the data terminal device through the long-range communication mode, and transmit the control instruction to the capsule endoscope through the short-range communication mode.

To sum up, the present invention discloses a capsule endoscope system, comprising: a capsule endoscope, a relay device and a data terminal device; wherein: the relay device integrates a dual communication mode of short-range communication and long-range communication, receives the acquired data sent by the capsule endoscope through the short-range communication mode, and sends the acquired data to the data terminal device through the long-range communication mode. The relay equipment can establish short-range communication with the capsule type endoscope, acquire the data acquired by the capsule type endoscope through the short-range communication mode, establish remote communication with the data terminal equipment, and transmit the acquired data acquired by the capsule type endoscope to the data terminal equipment in time through the remote communication mode so as to analyze and process the data acquired by the capsule type endoscope in time, thereby quickly acquiring the inspection result of the capsule type endoscope and improving the user experience.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a capsule endoscope system 1 according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of embodiment 2 of a capsule endoscope system disclosed by the invention;

fig. 3 is a schematic structural diagram of a capsule endoscope system in embodiment 3 of the present disclosure.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

As shown in fig. 1, which is a schematic structural diagram of an embodiment 1 of a capsule endoscope system disclosed in the present invention, the system may include: a capsule endoscope 101, a relay apparatus 102, and a data terminal apparatus 103; wherein:

the relay apparatus 102 integrates the dual communication mode of the short-range communication and the long-range communication, receives the collected data transmitted from the capsule endoscope 101 through the short-range communication mode, and transmits the collected data to the data terminal apparatus 103 through the long-range communication mode.

The capsule endoscope system disclosed by the embodiment has the working principle that: when a patient needs to be examined through the capsule endoscope system, the patient goes to a hospital to swallow the capsule endoscope 101 and can leave the hospital with the upper relay device 102; then, data are collected through the capsule endoscope 101, the collected data are sent to the relay device 102 carried by the patient through the short-range communication mode, and after the relay device 102 receives the collected data sent by the capsule endoscope 101 through the short-range communication mode, the received data are further sent to the data terminal device 103 through the long-range communication mode; the data terminal device 103 receives the collected data transmitted by the relay device 102 through the remote communication mode.

In summary, in the above embodiments, the relay device can establish short-range communication with the capsule endoscope, acquire data acquired by the capsule endoscope in a short-range communication mode, establish remote communication with the data terminal device, and transmit the acquired data acquired by the capsule endoscope to the data terminal device in a remote communication mode in time, so as to analyze and process the data acquired by the capsule endoscope in time, thereby quickly acquiring an inspection result of the capsule endoscope, and improving user experience.

As shown in fig. 2, which is a schematic structural diagram of embodiment 2 of the capsule endoscope system disclosed in the present invention, the system may include: a capsule endoscope 201, a relay apparatus 202, and a data terminal apparatus 203; wherein:

the capsule endoscope 201 includes: an acquisition module 2011, a first signal processing module 2012 and a first short-range communication module 2013; wherein: the first signal processing module 2012 receives and processes the acquired data acquired by the acquisition module 2011 and sends the acquired data to the first short-range communication module 2013, and the first short-range communication module 2013 sends the acquired data to the relay device 202;

the relay apparatus 202 includes: a second short-range communication module 2021 and a first long-range communication module 2022; wherein: the relay device 202 receives the collected data sent by the first short-range communication module 2013 through the second short-range communication module 2021, and transmits the collected data to the data terminal device 203 through the first long-range communication module 2022;

the data terminal device 203 includes: a second remote communication module 2031 and a display module 2032; wherein: the second remote communication module 2031 receives and transmits the collected data sent by the first remote communication module 2022, and displays the collected data through the display module 2032.

The capsule endoscope system disclosed by the embodiment has the working principle that: when a patient needs to be examined through the capsule endoscope system, the patient goes to a hospital to swallow the capsule endoscope 201 and can leave the hospital with the upper relay device 202; then, data acquisition is performed through an acquisition module 2011 in the capsule endoscope 201, an optical signal of the acquired data is sent to a first signal processing module 2012 in the capsule endoscope 201, and the first signal processing module 2012 converts the received optical signal into an electrical signal and sends the electrical signal to a first short-range communication module 2013 in the capsule endoscope 201;

the first short-range communication module 2013 in the capsule type endoscope 201 transmits the electric signal to the second short-range communication module 2021 in the relay apparatus 202 in the short-range communication mode, and the second short-range communication module 2021 receives the electric signal transmitted by the first short-range communication module 2013 and transmits the electric signal to the data terminal apparatus 203 in the long-range communication mode through the first long-range communication module 2022 in the relay apparatus 202;

the second remote communication module 2031 in the data terminal device 203 receives the electrical signal of the collected data sent by the first remote communication module 2022 through the remote communication mode, and the display module 2032 in the data terminal device 203 acquires the electrical signal of the collected data received by the second remote communication module 2031, processes the electrical signal, and displays the corresponding collected data.

In summary, in the above embodiments, the second short-range communication module in the relay device can establish short-range communication with the first short-range communication module in the capsule endoscope, acquire data acquired by the capsule endoscope acquisition module in the short-range communication mode, and can establish remote communication with the second remote communication module in the data terminal device through the first remote communication module, transmit the acquired data acquired by the capsule endoscope to the data terminal device in time in the remote communication mode, display the acquired data through the display module in the terminal device, and analyze and process the data acquired by the capsule endoscope in time, so that an inspection result of the capsule endoscope is quickly obtained, and user experience is improved.

Specifically, in the above embodiment, the acquisition module may include: the image acquisition module and the sensing acquisition module are used for acquiring image data through the image acquisition module and acquiring sensing data through the sensing acquisition module.

As shown in fig. 3, which is a schematic structural diagram of embodiment 3 of the capsule endoscope system disclosed in the present invention, the system may include: a capsule endoscope 301, a relay apparatus 302, and a data terminal apparatus 303; wherein:

the capsule endoscope 301 includes: the system comprises an image acquisition module 3011, a sensing acquisition module 3012, a first signal processing module 3013 and a first short-range communication module 3014; wherein, the image acquisition module 3011 includes: a camera sub-module 30111 and an image processing sub-module 30112; the sensing acquisition module 3012 includes: an attitude sensing submodule 30121 and a positioning sensing submodule 30122; wherein: the camera module 30111 is configured to collect image data; an image processing sub-module 30112 for processing image data; the attitude sensing submodule 30121 is used for collecting attitude data; a positioning sensing submodule 30122 for acquiring position data;

the first signal processing module 3013 receives and processes the acquired data acquired by the image acquisition module 3011 and the sensing acquisition module 3012, and sends the acquired data to the first short-range communication module 3014, and the first short-range communication module 3014 sends the acquired data to the relay device 302;

the relay apparatus 302 includes: a second short-range communication module 3021 and a first long-range communication module 3022; wherein: the relay device 302 transmits the collected data to the data terminal device 303 through the second short-range communication module 3021 and the first short-range communication module 3014, and transmits the collected data to the data terminal device 303 through the first long-range communication module 3022;

the data terminal device 303 includes: a second remote communication module 3031, a data management module 3032, a storage module 3033, a learning module 3034, an intelligent shooting module 3035, a pushing module 3036 and a display module 3037;

the second remote communication module 3031 receives and transmits the collected data sent by the first remote communication module 3022, and displays the collected data through the display module 3037;

the data management module 3032 classifies and indexes the acquired data according to a classification algorithm, divides the storage space of the storage module 3033 and specifies the storage position of the acquired data;

the storage module 3033 stores the acquired data in a classified manner;

the learning module 3034 acquires the acquired data from the storage module 3033 periodically to train so as to form a learning set; the learning result of the learning set is fed back to the data management module 3032 to update the classification algorithm;

the intelligent image reading module 3035 compares the classified collected data with the characteristics of a pre-stored classification sample set to complete the identification, analysis and judgment of the focus and output a diagnosis report;

the pushing module 3036 feeds back the diagnosis report to the patient in combination with the treatment scheme and the medication information of the doctor.

The capsule endoscope system disclosed by the embodiment has the working principle that: when a patient needs to be examined through the capsule endoscope system, the patient can go to a hospital to swallow the capsule endoscope 301 and leave the hospital with the upper relay device 302; then, image data is acquired through an image acquisition module 3011 in the capsule endoscope 301, sensing data is acquired through a sensing acquisition module 3012 in the capsule endoscope 301, specifically, image data can be acquired through a camera module 30111 in the image acquisition module 3011, the image data is processed through an image processing module 30112, attitude data is acquired through an attitude sensing module 30121 in the sensing acquisition module 3012, position data is acquired through a positioning sensing module 30122, optical signals of the acquired data are sent to a first signal processing module 3013 in the capsule endoscope 301 before and after the day, the first signal processing module 3013 converts the received optical signals into electrical signals, and the electrical signals are sent to a first short-range communication module 3014 in the capsule endoscope 301;

the first short-range communication module 3014 in the capsule endoscope 301 transmits an electric signal to the second short-range communication module 3021 in the relay apparatus 302 through the short-range communication mode, and the second short-range communication module 3021 receives the electric signal transmitted by the first short-range communication module 3014 and transmits the electric signal to the data terminal apparatus 303 through the long-range communication mode by the first long-range communication module 3022 in the relay apparatus 302;

a second remote communication module 3031 in the data terminal device 303 receives the electric signal of the collected data sent by the first remote communication module 3022 in a remote communication mode, and a display module 3037 in the data terminal device 303 acquires the electric signal of the collected data received by the second remote communication module 3031, processes the electric signal, and displays the corresponding collected data; meanwhile, data classification and indexing are carried out on the acquired data according to a classification algorithm through a data management module 3032 in the data terminal equipment 303, the storage space of a storage module 3033 is divided, and the storage position of the acquired data is specified; specifically, the data management module 3032 may classify the collected data according to the image data and the sensing data according to a classification algorithm, and classify the image data according to the image features and the position data; then the storage module 3033 classifies and stores the acquired data according to the classification result of the data management module 3032, and the acquired data can be further favorably analyzed and processed by classifying and indexing the acquired data;

the classification algorithm can periodically acquire acquired data from the storage module 3033 through the learning module 3034 to train to form a learning set, the learning result of the learning set is fed back to the data management module 3032 to update the classification algorithm, and the classification result of the data management module 3032 can be more accurate through updating the classification algorithm, so that the acquired data can be further analyzed and processed;

after the data management module 3032 classifies the collected data, the intelligent interpretation module 3035 performs feature comparison on the classified collected data and a pre-stored classified sample set to complete lesion identification, analysis and judgment, outputs a diagnosis report, and feeds back the diagnosis report to a patient through the pushing module 3036 in combination with a treatment scheme and medication information of a doctor.

Specifically, in the above embodiment, the pushing module 3036 may further collect daily life data of the patient in combination with the cloud big data information, and push health care items, diet suggestions and medication reminders to the patient in combination with the diagnosis report, the treatment scheme and the medication information. The daily life data may include: daily procurement data, diet data, body fat data, and exercise data.

In summary, on the basis of the above embodiments, the present embodiment can further perform data classification and indexing on the collected data through the data management module in the data terminal device, and perform classified storage on the collected data through the storage module, so as to further perform analysis processing on the collected data; the classified collected data can be further processed through the intelligent film reading module so as to automatically complete lesion identification, analysis and judgment and output a diagnosis report, and the detection efficiency is improved; the diagnosis report can be further fed back to the patient by combining the treatment scheme and the medication information of the doctor through the pushing module, so that the patient can obtain the treatment scheme and the medication information in time; and the classification algorithm can be further updated through the learning module, so that the classification result of the data management module is more accurate, and further, the analysis and the processing of the acquired data are more facilitated.

Specifically, on the basis of the above embodiment, the data terminal device may further generate a control instruction for controlling the capsule endoscope, the relay device receives the control instruction for controlling the capsule endoscope generated by the data terminal device in the remote communication mode, and sends the control instruction to the capsule endoscope in the short-range communication mode, and the capsule endoscope executes a corresponding operation after receiving the control instruction. For example, the capsule endoscope controls the imaging brightness of the capsule endoscope and the like in accordance with the received control instruction.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A capsule endoscopic system, comprising: a capsule endoscope, a relay device and a data terminal device; wherein: the relay device integrates a dual communication mode of short-range communication and long-range communication, receives the acquired data sent by the capsule type endoscope through the short-range communication mode, and sends the acquired data to the data terminal device through the long-range communication mode.

2. The system of claim 1,

the capsule type endoscope includes: the system comprises an acquisition module, a first signal processing module and a first short-range communication module; wherein: the first signal processing module receives and processes the acquired data acquired by the acquisition module and sends the acquired data to the first short-range communication module; the first short-range communication module sends the acquired data to the relay equipment;

3. The system of claim 2, wherein the acquisition module comprises: the system comprises an image acquisition module and a sensing acquisition module; wherein:

the image acquisition module is used for acquiring image data;

and the sensing acquisition module is used for acquiring sensing data.

4. The system of claim 3, wherein the image acquisition module comprises: the camera shooting module and the image processing module; the sensing acquisition module comprises: the attitude sensing submodule and the positioning sensing submodule; wherein:

the camera module is used for acquiring the image data;

the image processing module is used for processing the image data;

the attitude sensing submodule is used for acquiring attitude data;

and the positioning sensing submodule is used for acquiring position data.

5. The system of claim 4, wherein the data terminal device further comprises: the system comprises a data management module, a storage module, a learning module and an intelligent film reading module;

the storage module stores the acquired data in a classified manner;

6. The system of claim 5, wherein the data management module classifies the collected data according to the image data and the sensed data according to a classification algorithm; and classifying the image data according to the image characteristics and the position data.

7. The system of claim 5, wherein the data terminal device further comprises a push module; and the pushing module feeds the diagnosis report back to the patient in combination with the treatment scheme and the medication information of the doctor.

8. The system of claim 7, wherein the pushing module collects daily life data of the patient in combination with cloud big data information and pushes health care items, diet suggestions and medication reminders to the patient in combination with diagnosis reports, treatment schemes and medication information.

9. The system of claim 8, wherein the daily living data comprises: daily procurement data, diet data, body fat data, and exercise data.

10. The system according to claim 1, wherein the relay device is further configured to receive a control instruction for controlling the capsule endoscope transmitted from the data terminal device through the long-range communication mode, and transmit the control instruction to the capsule endoscope through the short-range communication mode.