CN201481399U - Mobile communication terminal - Google Patents

Abstract

The utility model provides a mobile communication terminal which comprises an image acquisition module, a data processing module, a memory module, a diagnostic control module and a display module, wherein the image acquisition module is used for receiving infrared light signals permeating the lacteal gland and collecting image data; the data processing module is connected with the image acquisition module and is used for processing the image data collected by the image acquisition module into digital images; the memory module is connected with the data processing module and is used for storing the digital images acquired by the data processing module; the diagnostic control module is connected with the memory module and is used for sending the digital images in the memory module to a diagnosis server in wireless network connection; and the display module is connected with the memory module and is used for displaying the digital images in the memory module. The mobile communication terminal provided by the utility model can realize the function of primary screening of lacteal gland diseases, and achieves the purpose of saving medical resources.

Description

Mobile communication terminal

Technical field

This utility model relates to the armarium technical field, particularly relates to a kind of mobile communication terminal.

Background technology

Mastopathy is one of multiple disease of women, particularly along with the quickening of modern metropolitan cities rhythm of life, life stress, operating pressure that the women faces increase the weight of, the sickness rate of mastopathy is raising year by year, causes breast carcinoma---and the modal malignant tumor of this women is also rising year by year at global sickness rate.In the U.S. is the first place of women's malignant tumor sickness rate, accounts for 26% of women's malignant tumor sickness rate, and accounts for 18% of mortality rate.According to incompletely statistics, be 30900 people at the morbidity number of China's breast carcinoma in 1980, account for the 9th of malignant tumor morbidity number, and rose to the 7th in 1985, number of the infected doubles, and shows that in vicennial investigation subsequently the M ﹠ M of mastopathy also all becomes ascendant trend.In fact, most of patient with breast cancer's the cause of death is exactly because in time do not find, has missed best occasion for the treatment, and therefore, area generaI investigation, early diagnosis are very necessary for women's health.

At present, developed countries such as America and Europe all adopt Mammography or CR technology to generally investigate and diagnose, though breast carcinoma checks that accuracy rate is higher,, adopt said method to have that checking efficiency is low, consumptive material is high, the funds spending is big, and human body is had the shortcoming of injury.In addition, also adopt image check methods such as general X ray, B ultrasonic in the prior art, but above-mentioned image check need satisfy certain density resolution, promptly only reach just meeting video picture more than the 2mm at canceration lump diameter, therefore, adopt said method can not detect the early lesion of mammary gland tissue, do not reach the effect of discovery, early treatment early.

Along with development of technology, have again in recent years and utilize the near infrared light technology to carry out the method for breast examination, publication number is: the patent application document of CN 101049238A discloses a kind of two band infrared diagnosis instrument for disease of mammary gland, comprise hand-held LASER Light Source, IRDS, date processing and computer control system, data handling system and computer control system connect IRDS and hand-held LASER Light Source respectively by control signal wire.Use above-mentioned diagnostic apparatus can be simultaneously, take mammary gland temperature field and hemoglobin distribution field with the visual field, gather various information comprehensively, for analysis-by-synthesis provides condition, improve the sensitivity of breast cancer detection and early examine rate.

But, above-mentioned utility model also exist cost height, volume big, carry inconvenience, need defectives such as the professional operates.Adopt above-mentioned diagnostic apparatus to conduct a survey, numerous women must go to special medical treatment or health institution, owing to be subjected to the quantity of above-mentioned diagnostic instruments and the time restriction that the doctor is on diagnostics, cause the checking efficiency and the popularity of breast examination all lower, and then also be difficult to accomplish to mastopathy early find, early treatment, guarantee women's health.

In a word, need the urgent technical problem that solves of those skilled in the art to be exactly: how can reduce the volume and weight of infrared breast diagnosis instrument device, solve the low and not high problem of popularization degree of breast examination efficient.

The utility model content

Technical problem to be solved in the utility model provides a kind of mobile communication terminal with infrared mammary gland measuring ability, satisfies the demand that the women carries out infrared breast examination quickly and easily, realizes the elementary examination function to the female mammary gland disease.

In order to address the above problem, the utility model discloses a kind of mobile communication terminal, comprising: image capture module is used to receive the infrared signal through mammary gland, acquisition of image data; Data processing module is connected with described image capture module, is used for the view data that described image capture module collects is treated to digital picture; Memory module is connected with described data processing module, is used to store the digital picture that described data processing module obtains; DCM diagnostic control module is connected with described memory module, is used for the digital picture of described memory module is sent to the diagnosis server that wireless network connects; Display module is connected with described memory module, is used for showing the digital picture of described memory module.

Preferably, described image capture module specifically comprises: infrared remote receiver is used to receive the infrared signal through mammary gland; AD conversion unit is connected with described infrared remote receiver, and the infrared signal that is used for described infrared remote receiver is collected is converted to digital signal through the analog electrical signal after the opto-electronic conversion.

Preferably, described DCM diagnostic control module specifically comprises: the infrared remote receiver driver element, be connected with described infrared remote receiver, and be used to drive described infrared remote receiver and receive the infrared signal that sees through mammary gland; Data transmission unit is connected with described memory module, is used for the digital picture of described memory module is sent to the diagnosis server that connects by wireless network.

Preferably, described DCM diagnostic control module also comprises: the infrared probe driver element, be connected with infrared probe, and be used to drive infrared probe emission infrared light.

Preferably, described mobile communication terminal also comprises: information receiving module is used to receive the diagnostic result of described diagnosis server by radio network feedback.

Compared with prior art, the utlity model has following advantage:

The mobile communication terminal that this utility model provides not only has mobile communication terminal body, also integrated be used for image capture module, data processing module, memory module, display module and the DCM diagnostic control module that infrared mammary gland detects, make above-mentioned portable terminal not only have mobile communication function, also have infrared mammary gland measuring ability.Because its integrated infrared mammary gland measuring ability module, do not have obviously to increase the volume and weight of mobile communication terminal again,, advantage such as be convenient to carry so that this mobile communication terminal possesses volume is little, in light weight.The user uses this portable terminal can carry out infrared mammary gland in good time and detects, be very easy to the user, saved limited medical resource, realized the elementary examination function of cystic hyperplasia of breast, ensured numerous women's health, and then improved numerous women's quality of life.

Description of drawings

Fig. 1 is the sketch map of this utility model mobile communication terminal first embodiment;

Fig. 2 is the sketch map of this utility model data processing module embodiment;

Fig. 3 is the sketch map of this utility model DCM diagnostic control module;

Fig. 4 is the sketch map of this utility model mobile communication terminal second embodiment.

The specific embodiment

For above-mentioned purpose of the present utility model, feature and advantage can be become apparent more, this utility model is described in further detail below in conjunction with the drawings and specific embodiments.

With reference to Fig. 1, show the sketch map of this utility model mobile communication terminal first embodiment, comprising:

Image capture module 11 is used to receive the infrared signal through mammary gland, acquisition of image data, and the infrared signal that is about to receive is an analog electrical signal through the opto-electronic conversion post processing.

Data processing module 12, be connected with image capture module 11, the analog electrical signal that is used for image capture module 11 is collected is through after the analog-to-digital conversion process, form recording image data with digital document, then this view data is treated to digital picture, promptly the view data that above-mentioned image capture module 11 obtains is treated to digital picture, i.e. the image file that can show by digital imaging processing software.

Memory module 13 is connected with data processing module 12, is used to store the digital picture after data processing module 12 is handled.

Memory module 13 can be RAM (Random Access Memory, random access memory (RAM)) or other dynamic memories, ROM (Read Only Memory, read only memory) or other static memories; Flash memory, disk or CD.Be used to store the digital picture that the data data processing module obtains, and relevant programmed instruction, temporary variable or average information in the processing procedure can also be deposited.

Display module 14 is connected with memory module 13, is used for showing the digital picture of memory module 13.The display mode of display module 14 can comprise liquid crystal display or LED demonstration etc.

DCM diagnostic control module 15 is connected with memory module 13, is used for the digital picture of memory module 13 is sent to the diagnosis server that wireless network connects.

Above-mentioned wireless network support comprises various wireless communication technologys such as GSM/GPRS, CDMA1X/1X-EVDO, WCDMA, TD-SCDMA, WIFI or WAPI.

Wherein, GSM is the abbreviation of Global System for Mobile Communication, and Chinese is translated into: global system for mobile communications; GPRS is the abbreviation of General Packet Radio Service, and Chinese is translated into: general packet radio service.

CDMA is the abbreviation of Code Division Multiple Access, and Chinese is translated into: CDMA; EVDO is the abbreviation of Evolution-Data only.CDMA 1X original meaning is meant the phase I of CDMA 2000, can support the transfer of data of 308kbps, network portion to introduce packet switch, can support mobile IP service; CDMA 1X is a kind of new bearer service that development is come out in CDMA IS95 system, and purpose is the data service that block form is provided for CDMA user.

WCDMA is the abbreviation of Wide band Code Division Multiple Access, and Chinese is translated into: WCDMA.TD-SCDMA is the abbreviation of Time Division-Synchronous Code DivisionMultiple Access, and Chinese is translated into: the CDMA that the time-division is synchronous.

WIFI is the abbreviation of Wireless Fidelity, and Chinese is translated into: wireless compatible authentication.WAPI is the abbreviation of WLAN Authentication and Privacy Infrastructure, and Chinese is translated into: WLAN is differentiated and secret architecture.

The work process of this utility model mobile communication terminal embodiment is: image capture module 11 receives the infrared signal that sees through mammary gland, and acquisition of image data also sends to data processing module 12; Data processing module 12 is treated to digital picture with the view data that image capture module 11 collects, and this digital picture is sent to memory module 13; Digital picture after memory module 13 storage data processing modules 12 are handled also sends to display module 14 or DCM diagnostic control module 15; Display module 14 reads and shows digital picture in the memory module 13; DCM diagnostic control module 15 sends to the diagnosis server that wireless network connects with the digital picture of memory module 13 storages.

Data acquisition module 11 among the above-mentioned mobile communication terminal embodiment can specifically be divided into several subelements again, with reference to Fig. 2, shows the sketch map of this utility model data processing module embodiment, specifically comprises:

Infrared remote receiver 21 is used to receive the infrared signal through mammary gland;

AD conversion unit 22 is connected with infrared remote receiver 21, and the analog electrical signal of infrared signal after opto-electronic conversion that is used for infrared remote receiver 21 is collected is converted to digital signal.

Data acquisition module corresponding shown in Figure 2, the DCM diagnostic control module 15 among the above-mentioned mobile communication terminal embodiment also can specifically be subdivided into several subelements, referring to Fig. 3, shows the sketch map of this utility model DCM diagnostic control module, specifically comprises:

Infrared remote receiver driver element 31 is used to drive infrared remote receiver and receives the infrared signal that sees through mammary gland;

Data transmission unit 32 is used for the digital picture of memory module storage is sent to the diagnosis server that connects by wireless network.

In another embodiment of the present utility model, above-mentioned DCM diagnostic control module 15 can also comprise: infrared probe driver element 33 is used to drive the infrared probe that is connected to mobile communication terminal and sends Infrared, irradiation human body mammary gland position.

With reference to Fig. 4, show the sketch map of this utility model mobile communication terminal second embodiment, this mobile communication terminal is the improvement of carrying out on the basis of mobile communication terminal shown in Figure 1, comprising:

Image capture module 11 is used to receive the infrared signal through mammary gland, acquisition of image data, and the infrared signal that is about to receive is an analog electrical signal through the opto-electronic conversion post processing.

Image capture module 11 specifically comprises infrared remote receiver 21 and AD conversion unit 22 again, and wherein, infrared remote receiver 21 is used to receive the infrared signal through mammary gland;

AD conversion unit 22 is connected with infrared remote receiver 21, and the analog electrical signal of infrared signal after opto-electronic conversion that is used for infrared remote receiver 21 is collected is converted to digital signal.

Data processing module 12, be connected with AD conversion unit 22, the Digital Signal Processing that is used for that AD conversion unit 22 is obtained is a digital picture, promptly by digital imaging processing software the view data that above-mentioned image capture module 11 obtains is treated to digital picture, i.e. the image file that can show.

Memory module 13 is connected with data processing module 12, is used to store the digital picture after data processing module 12 is handled.

Display module 14 is connected with memory module 13, is used for showing the digital picture of memory module 13.

DCM diagnostic control module 15 specifically comprises:

Infrared remote receiver driver element 31 is connected with infrared remote receiver 21, is used to drive infrared remote receiver 21 and receives the infrared signal that sees through mammary gland;

Data transmission unit 32 is connected with memory module 13, is used for the digital picture of memory module 13 is sent to the diagnosis server that connects by wireless network.

In another embodiment of the present utility model, above-mentioned DCM diagnostic control module 15 can also comprise: infrared probe driver element 33 is used to drive the infrared probe that is connected to mobile communication terminal and sends Infrared, irradiation human body mammary gland position.

This utility model mobile communication terminal embodiment can also comprise:

Information receiving module 16 is used for the diagnostic result of receiving remote diagnosis server by radio network feedback.

Sketch the work process of this utility model mobile communication terminal second embodiment below in conjunction with the principle of infrared mammary gland detection:

The principle that infrared mammary gland detects is: Infrared irradiation human body mammary gland position, because the human body mammary gland tissue presents different absorption characteristics to the infrared spectrum by wherein, so seeing through the infrared signal of diseased region can be different with the optical parametrics such as intensity of the infrared signal that sees through normal galactophore tissue, the gray scale of the infrared image that collects by observation, organizational structure, overall dimensions be the optical characteristics of mammary gland tissue particularly, just can judge tentatively whether the mammary gland position has pathological changes to take place, and judge its position and size.

The work process of this utility model mobile communication terminal second embodiment is:

Infrared remote receiver 21 enters normal mode of operation under the driving of infrared remote receiver driver element 31, receive the infrared signal that sees through human body mammary gland; Above-mentioned infrared signal is the infrared transmission light that has carried mammary structure information.Infrared remote receiver 21 receives transmission and crosses the infrared signal of human body mammary gland and this infrared signal is treated to analog electrical signal through opto-electronic conversion.

AD conversion unit 22 is treated to the digital signal that comprises image information with the analog electrical signal process analog digital conversion that has comprised image information that infrared remote receiver 21 collects.

The Digital Signal Processing that data processing module 12 utilizes digital imaging processing software that AD conversion unit 22 is obtained is digital picture.

The digital picture that memory module 13 storage data processing modules 12 obtain;

Display module 14 reads and shows digital picture in the memory module 13;

Data transmission unit 32 sends to the above-mentioned diagnosis server that connects by wireless network with the digital picture of memory module 13 storages.

Information receiving module 16 can also receive the diagnostic result that feeds back through remote diagnosis server diagnosis back by wireless network.

Mobile communication terminal obtains infrared mammary gland in real time by information receiving module and detects diagnostic result.

When this utility model mobile communication terminal specifically is applied to the monitoring of infrared mastopathy, can connect the infrared probe that is used to launch Infrared, under the driving of infrared probe driver element 33, infrared probe is launched the Infrared that wave-length coverage is 700nm～2000nm, acts on the mammary gland position of human body.The wavelength of the Infrared that infrared probe is launched and intensity can be regulated according to needs of medical treatment.Above-mentioned infrared probe can be connected to mobile communication terminal by data wire, provide power supply by portable terminal, by the operation of infrared probe drive unit drives infrared probe, control probe switch, the intensity of regulating infrared signal are selected the operations such as wave-length coverage of infrared light.

In addition, this utility model mobile communication terminal also can be equipped with the light source that a kind of independently infrared probe detects as infrared mammary gland concrete enforcement in the infrared mammary gland testing process, the emission Infrared.Mobile communication terminal then is used to receive the infrared light through mammary gland tissue, and the infrared signal that receives is handled.Power supply such as battery powered that above-mentioned independently infrared probe is carried by itself, the user can control the switch of probe, the intensity of regulating infrared signal by the driver element of infrared probe self, selects the wave-length coverage of infrared light etc.

The logical gate that above-mentioned each module and mobile communication terminal body comprise, radio frequency part and the common formation of man-machine interface part have the mobile communication terminal of infrared mammary gland measuring ability.Because length is limited among the figure, the each several part that mobile communication terminal body can not be comprised and all show with the annexation of above-mentioned each module omits among the figure.(terminal body that relates in this utility model is meant, the module section that is used to realize common mobile terminal function except that the module that is used to realize infrared mammary gland measuring ability).When it will be appreciated by those skilled in the art that above-mentioned each module work that is used to realize infrared mammary gland measuring ability is to be connected with the each several part of mobile communication terminal body, and the peripheral circuit module of terminal body is above-mentioned each module for power supply.

The disclosed mobile communication terminal of this utility model embodiment not only comprises the mobile communication body, significantly do not increasing under the prerequisite of mobile communication terminal volume and weight, also integrated be used for image capture module, data processing module, display module, the DCM diagnostic control module that infrared mammary gland detects, make this mobile communication terminal not only have common mobile communication function, and possessed the infrared mammary gland measuring ability that infrared mammary gland detector is had.Because it is little that it has a volume, in light weight, advantage such as conveniently carry, so people use this mobile communication terminal can carry out mammary gland at any time and detect, oneself can judge mammary gland health status by the detected image that display module shows, also can the digital picture of obtaining be sent to the remote diagnosis server that connects by wireless network by data transmission unit, seek help from Surveillance center and know diagnostic result, not only effectively saved limited medical resource, and realized the elementary examination function of mastopathy, effectively prevent mastopathy, ensured numerous women's health, and then improved numerous women's quality of life.

Each embodiment in this description all adopts the mode of going forward one by one to describe, and what each embodiment stressed all is and the difference of other embodiment that identical similar part is mutually referring to getting final product between each embodiment.

More than to a kind of mobile communication terminal provided by the utility model, be described in detail, used specific case herein principle of the present utility model and embodiment are set forth, the explanation of above embodiment just is used for helping to understand the technical solution of the utility model; Simultaneously, for one of ordinary skill in the art, according to thought of the present utility model, part in specific embodiments and applications all can change, and these modifications or be equal to replacement and also can not make amended technical scheme break away from the spirit and scope of technical solutions of the utility model, in sum, this description should not be construed as restriction of the present utility model.

Claims (5)

1. a mobile communication terminal is characterized in that, comprising:

Image capture module is used to receive the infrared signal through mammary gland, acquisition of image data;

Data processing module is connected with described image capture module, is used for the view data that described image capture module collects is treated to digital picture;

Memory module is connected with described data processing module, is used to store the digital picture that described data processing module obtains;

DCM diagnostic control module is connected with described memory module, is used for the digital picture of described memory module is sent to the diagnosis server that wireless network connects;

Display module is connected with described memory module, is used for showing the digital picture of described memory module.

2. mobile communication terminal according to claim 1 is characterized in that, described image capture module specifically comprises:

Infrared remote receiver is used to receive the infrared signal through mammary gland;

AD conversion unit is connected with described infrared remote receiver, and the infrared signal that is used for described infrared remote receiver is collected is converted to digital signal through the analog electrical signal after the opto-electronic conversion.

3. mobile communication terminal according to claim 1 is characterized in that, described DCM diagnostic control module specifically comprises:

The infrared remote receiver driver element is connected with described infrared remote receiver, is used to drive described infrared remote receiver and receives the infrared signal that sees through mammary gland;

Data transmission unit is connected with described memory module, is used for the digital picture of described memory module is sent to the diagnosis server that connects by wireless network.

4. mobile communication terminal according to claim 1 is characterized in that, described DCM diagnostic control module also comprises:

The infrared probe driver element is connected with infrared probe, is used to drive infrared probe emission infrared light.

5. mobile communication terminal according to claim 1 is characterized in that, also comprises:

Information receiving module is used to receive the diagnostic result of described diagnosis server by radio network feedback.

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