CN112687386A - Broken-hand and active-taking probability analysis system - Google Patents

Abstract

The invention relates to a system for analyzing the probability of disconnection and connection, which comprises: the time length analysis mechanism is used for carrying out mean value calculation on each red component value of each effective pixel point in the received content processing image to obtain a reference mean value, and mapping and outputting the estimated time length of the broken hand corresponding to the reference mean value; the probability identification device is connected with the time length analysis mechanism and used for determining the survival probability corresponding to the estimated time length of the broken hand based on the estimated time length of the broken hand; and the instant display mechanism is used for receiving and displaying the survival probability corresponding to the estimated time length of the broken hand. The system for analyzing the probability of the broken hand and the broken hand is compact in design and convenient to operate. The method can adaptively estimate the hand-off duration and the corresponding survival probability based on the color analysis result of the human hand-off, thereby providing effective reference data for the decision of medical staff.

Description

Broken-hand and active-taking probability analysis system

Technical Field

The invention relates to the field of medical diagnosis, in particular to a system for analyzing the probability of disconnection and activation.

Background

The medical diagnosis is to make an accurate judgment on a human body by using the existing medical technology to find out the causes of diseases. The temperature of human limbs is mainly determined by the blood circulation state, and when vascular diseases exist, the blood circulation is obstructed, and the skin temperature is reduced. Such as obliterative angiitis, arterial embolism, aneurysm and the like, usually shows abnormal temperature of a lesion part, and the lesion part and the range can be clearly displayed by using a thermal infrared imager.

For example, thromboangiitis obliterans is a chronic systemic disease, which is most frequently found in the lower extremities, more frequently in the toe region. The small and medium-sized arteries are inflamed to cause thrombus, the arteries are blocked, blood circulation of lesion parts is disturbed, and the skin temperature is reduced. The pathological change part and range can be easily diagnosed by a thermal imager, the stereoscopic impression is strong, and the human error is small. Especially for the diagnosis of early vasculitis, the clinical symptoms are not obvious yet, and the diagnosis can not be detected by a common method, but the thermal imager can not only display the existence of pathological changes, but also show the degree and range of pathological changes of each toe. By early diagnosis and timely treatment, serious damage to limbs, such as ulcers and necrosis, can be avoided.

The judgment of the mental and physical state of people from the medical point of view. Judging the health state, labor capacity and a specific physiological process of a normal person; the judgment of the relationship between blood and the nature of injury by the judicial department is also a diagnostic. The diagnosis for recognizing the disease is the most extensive, and is the prerequisite for treatment, prognosis and prevention.

Disclosure of Invention

In order to solve the related technical problems in the prior art, the invention provides a system for analyzing the breaking and activating probability, which can adaptively estimate the breaking duration and the corresponding activating probability based on the color analysis result of the human breaking, thereby providing effective reference data for the decision of medical staff.

For this reason, the present invention needs to have at least the following important points:

(1) analyzing the section color of the current human hand break based on a customized color analysis mechanism, and estimating the hand break time length based on an analysis result, wherein the deeper the red color component in the section color is, the longer the estimated hand break time length is;

(2) determining a probability of activation corresponding to the estimated length of time of the outage based on the estimated length of time of the outage, thereby providing valuable reference data for the surgical personnel.

According to an aspect of the present invention, there is provided a system for resolving a disconnection/connection probability, the system including:

the time length analysis mechanism is connected with the signal identification equipment and is used for carrying out mean value calculation on each red component value of each effective pixel point in the received content processing image to obtain a reference mean value;

and the time length analysis mechanism is also used for mapping and outputting the estimated time length of the broken hand corresponding to the reference mean value.

More specifically, in the bandwidth correction system based on the number of trains according to the present invention:

and the HDMI transmission interface inside the duration analysis mechanism is realized by adopting a programmable logic device, and the programmable logic device is designed into specific functions by using VHDL language.

More specifically, in the bandwidth correction system based on the number of trains according to the present invention:

the time length analysis mechanism and the signal identification equipment are configured around a power supply and are respectively isolated from the power supply by adopting different electromagnetic shielding mechanisms.

More specifically, the bandwidth correction system based on the number of trains according to the present invention further includes:

the probability identification device is connected with the time length analysis mechanism and used for determining the survival probability corresponding to the estimated time length of the broken hand based on the estimated time length of the broken hand;

the instant display mechanism is arranged near the probability identification equipment and used for receiving and displaying the survival probability corresponding to the estimated time length of the broken hand;

the data entry mechanism is used for entering a real-time sectional image obtained by shooting the section of the broken hand of the human body into an image database;

the dynamic processing equipment is connected with the data entry mechanism and used for calling out a real-time sectional image from the image database and executing white balance processing based on a dynamic threshold value on the received real-time sectional image so as to obtain and output a corresponding dynamic processing image;

the data enhancement equipment is connected with the dynamic processing equipment and is used for executing histogram equalization processing based on a density function on the received dynamic processing image so as to obtain and output a corresponding data enhancement image;

the content enrichment equipment is connected with the data enhancement equipment and is used for executing bilinear interpolation processing on the received data enhancement image so as to obtain and output a corresponding content processing image;

the color extraction mechanism is connected with the content enrichment equipment and is used for extracting color parameters of each pixel point forming the content processing image, and the color parameters of each pixel point comprise a red component, a blue component and a green component;

the signal identification equipment is connected with the signal extraction mechanism and is used for taking the pixel points with the color parameters falling in the purple color range as effective pixel points to obtain each effective pixel point in the content processing image;

wherein mapping and outputting the estimated time duration of the outage corresponding to the reference mean value comprises: the closer the reference mean value is to 255, the longer the estimated time duration of the outage corresponding to the reference mean value is.

The system for analyzing the probability of the broken hand and the broken hand is compact in design and convenient to operate. The method can adaptively estimate the hand-off duration and the corresponding survival probability based on the color analysis result of the human hand-off, thereby providing effective reference data for the decision of medical staff.

Detailed Description

The following describes an embodiment of the disconnection probability analysis system according to the present invention in detail.

The operation of breaking hand and joining living refers to the operation of high, fine and fine fineness, in which the completely or incompletely separated finger body is returned to the original position under the aid of an optical magnifier (microscope) to recover blood circulation, so that the finger body can survive and recover a certain function. The broken finger body has certain integrity; the vascular nerves at the two ends of the severed finger can be anastomosed at the opposite end, or the vascular nerves can be transplanted to be repaired through the transposition of the vascular nerves of the adjacent finger; the nail root is suitable for replantation by the proximal amputation; the time limit of replanting is more than ten hours in winter and 7 hours at normal temperature in summer.

In principle, the order of vascular anastomosis is to sew the dorsal digital vein first and then the artery. The stitch length and the edge distance of the suture of the dorsal phalanx vein and the finger artery are uniform, and the stitch length can be wider than the artery. After the dorsal phalanx vein is sutured, a plurality of needles are sutured on the soft tissue or the skin at the position to protect the blood vessel from dryness and injury. After the artery fracture is trimmed, the vascular clamps are loosened, the artery can be sutured only if the fracture on the near side of the vascular clamps can have good blood spraying, the blocked vascular clamps are placed after the artery is sutured well, the artery on the far side of the anastomotic stoma can be seen to be full and pulsating, the distal end blood supply of the finger is planted well, the skin color is changed from pale to ruddy, and the skin temperature is increased. Indicating that the blood circulation has been successfully reestablished. At the moment, the unsewn arteries and veins should be tied one by one to prevent the formation of operation bleeding swelling and even false aneurysm, which affects venous return and arterial blood supply, and infection is easy to occur, and the problem of infection needs to be noticed.

In the prior art, the medical events of human hand breakage can occur due to various mechanical accidents or holding a mechanical fight and the like. If the time of human hand-off is not long, the probability of survival will be greatly improved, on the contrary, if the time of human hand-off is too long, the probability of survival is not large, and how to judge the time of human hand-off has a very important referential meaning to which kind of operation scheme is adopted by medical staff.

In order to overcome the defects, the invention builds a system for analyzing the probability of the broken hand and the activity, and can effectively solve the corresponding technical problem.

The system for resolving the probability of disconnection and connection shown according to the embodiment of the invention comprises:

the time length analysis mechanism is connected with the signal identification equipment and used for carrying out mean value calculation on each red component value of each effective pixel point in the received content processing image to obtain a reference mean value, and mapping and outputting the estimated time length of the broken hands corresponding to the reference mean value;

the HDMI transmission interface inside the duration analysis mechanism is realized by adopting a programmable logic device, and the programmable logic device designs specific functions by using a VHDL language;

the time length analysis mechanism and the signal identification equipment are configured around a power supply and are respectively isolated from the power supply by adopting different electromagnetic shielding mechanisms;

the probability identification device is connected with the time length analysis mechanism and used for determining the survival probability corresponding to the estimated time length of the broken hand based on the estimated time length of the broken hand;

the instant display mechanism is arranged near the probability identification equipment and used for receiving and displaying the survival probability corresponding to the estimated time length of the broken hand;

the data entry mechanism is used for entering a real-time sectional image obtained by shooting the section of the broken hand of the human body into an image database;

the dynamic processing equipment is connected with the data entry mechanism and used for calling out a real-time sectional image from the image database and executing white balance processing based on a dynamic threshold value on the received real-time sectional image so as to obtain and output a corresponding dynamic processing image;

the data enhancement equipment is connected with the dynamic processing equipment and is used for executing histogram equalization processing based on a density function on the received dynamic processing image so as to obtain and output a corresponding data enhancement image;

the content enrichment equipment is connected with the data enhancement equipment and is used for executing bilinear interpolation processing on the received data enhancement image so as to obtain and output a corresponding content processing image;

the color extraction mechanism is connected with the content enrichment equipment and is used for extracting color parameters of each pixel point forming the content processing image, and the color parameters of each pixel point comprise a red component, a blue component and a green component;

the signal identification equipment is connected with the signal extraction mechanism and is used for taking the pixel points with the color parameters falling in the purple color range as effective pixel points to obtain each effective pixel point in the content processing image;

wherein mapping and outputting the estimated time duration of the outage corresponding to the reference mean value comprises: the closer the reference mean value is to 255, the longer the estimated time duration of the outage corresponding to the reference mean value is.

Next, a specific configuration of the disconnection/connection probability analysis system according to the present invention will be further described.

In the breaking and connecting probability analysis system:

determining a probability of activation corresponding to the estimated outage duration based on the estimated outage duration comprises: the longer the outage estimated time length is, the lower the determined probability of being connected corresponding to the outage estimated time length is.

In the breaking and connecting probability analysis system:

and the values of the red component, the blue component or the green component in the color parameter of each pixel point are all between 0 and 255.

In the breaking and connecting probability analysis system:

the data entry mechanism is also respectively connected with the probability identification device and the duration analysis mechanism and used for receiving and storing the survival probability and the estimated duration of the broken hands.

The system for analyzing the outage probability may further include:

the voice playing chip is respectively connected with the probability recognition equipment and the time length analysis mechanism and is used for receiving and playing the survival probability and the estimated time length of the broken hand;

the instant display mechanism is also connected with the duration analysis mechanism and used for receiving and displaying the estimated duration of the broken hand.

In the breaking and connecting probability analysis system:

the data enhancement device, the content enrichment device and the color extraction mechanism are adjacently arranged, and the distance from the content enrichment device to the color extraction mechanism is equal to the distance from the content enrichment device to the data enhancement device.

In the breaking and connecting probability analysis system:

a signal input unit, a data processing unit and a signal output unit are arranged in the content enrichment equipment, and the data processing unit is respectively connected with the signal input unit and the signal output unit;

wherein, in the content enrichment apparatus, the signal input unit, the data processing unit, and the signal output unit share the same parallel data bus.

The system for analyzing the outage probability may further include:

the LED display mechanism is connected with the data enhancement equipment and is used for displaying various operating parameters of the data enhancement equipment in real time;

the LED display mechanism is composed of a plurality of LED display units and a microcontroller, and the microcontroller is respectively connected with the LED display units;

the LED display units share the same row of data output interfaces and the same row of data output interfaces.

In the breaking and connecting probability analysis system:

the color extraction mechanism is connected with a parameter configuration interface and is used for receiving various parameter control commands sent by the parameter configuration interface.

In addition, in the system for analyzing the probability of the disconnection and the connection, the data enhancement device, the content enrichment device and the color extraction mechanism are respectively realized by ASIC chips with different models. Currently, in the integrated circuit world, an ASIC is considered to be a purpose-built integrated circuit. Refers to integrated circuits designed and manufactured to meet the needs of a particular user and the needs of a particular electronic system. The ASIC is characterized by facing the requirements of specific users, and compared with a general integrated circuit, the ASIC has the advantages of smaller volume, lower power consumption, improved reliability, improved performance, enhanced confidentiality, reduced cost and the like during batch production. An integrated circuit is a microelectronic device or component. The elements such as transistor, resistor, capacitor and inductor and wiring required in a circuit are interconnected together by adopting a certain process, manufactured on one or a plurality of small semiconductor wafers or medium substrates, and then packaged in a tube shell to form a micro structure with the required circuit function; all the elements are structurally integrated, so that the electronic elements are greatly miniaturized, low in power consumption, intelligent and high in reliability. The larger the scale of the integrated circuit, the more difficult it is to build a system to change to address these issues for specific requirements. Therefore, an Application Specific Integrated Circuit (ASIC) featuring user-added design has emerged, which can achieve an optimized design of the entire system, with superior performance and high security. The application specific integrated circuit can integrate the functions of a plurality of, dozens of or even hundreds of universal medium and small integrated circuits which respectively bear some functions on one chip, and further integrate the whole system on one chip to realize the needs of the system. The circuit of the whole machine is optimized, the number of elements is reduced, wiring is shortened, the volume and the weight are reduced, and the reliability of the system is improved.

It should be understood that portions of the present invention may be implemented in hardware, software, firmware, or a combination thereof. In the above embodiments, the various steps or methods may be implemented in software or firmware stored in memory and executed by a suitable instruction execution system. For example, if implemented in hardware, as in another embodiment, any one or combination of the following techniques, which are known in the art, may be used: a discrete logic circuit having a logic gate circuit for implementing a logic function on a data signal, an application specific integrated circuit having an appropriate combinational logic gate circuit, a Programmable Gate Array (PGA), a Field Programmable Gate Array (FPGA), or the like.

It will be understood by those skilled in the art that all or part of the steps carried by the method for implementing the above embodiments may be implemented by hardware related to instructions of a program, which may be stored in a computer readable storage medium, and when the program is executed, the program includes one or a combination of the steps of the method embodiments.

The storage medium mentioned above may be a read-only memory, a magnetic or optical disk, etc. Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (9)

1. A system for resolving a probability of a broken hand or an active hand, the system comprising:

the time length analysis mechanism is connected with the signal identification equipment and is used for carrying out mean value calculation on each red component value of each effective pixel point in the received content processing image to obtain a reference mean value;

and the time length analysis mechanism is also used for mapping and outputting the estimated time length of the broken hand corresponding to the reference mean value.

2. The system for resolving a probability of disconnection/connection as claimed in claim 1, wherein:

and the HDMI transmission interface inside the duration analysis mechanism is realized by adopting a programmable logic device, and the programmable logic device is designed into specific functions by using VHDL language.

3. The system for resolving a probability of disconnection/connection as claimed in claim 2, wherein:

the time length analysis mechanism and the signal identification equipment are configured around a power supply and are respectively isolated from the power supply by adopting different electromagnetic shielding mechanisms.

4. The system for resolving a probability of outage of claim 3, the system further comprising:

the probability identification device is connected with the time length analysis mechanism and used for determining the survival probability corresponding to the estimated time length of the broken hand based on the estimated time length of the broken hand;

the instant display mechanism is arranged near the probability identification equipment and used for receiving and displaying the survival probability corresponding to the estimated time length of the broken hand;

the data entry mechanism is used for entering a real-time sectional image obtained by shooting the section of the broken hand of the human body into an image database;

the dynamic processing equipment is connected with the data entry mechanism and used for calling out a real-time sectional image from the image database and executing white balance processing based on a dynamic threshold value on the received real-time sectional image so as to obtain and output a corresponding dynamic processing image;

the data enhancement equipment is connected with the dynamic processing equipment and is used for executing histogram equalization processing based on a density function on the received dynamic processing image so as to obtain and output a corresponding data enhancement image;

the content enrichment equipment is connected with the data enhancement equipment and is used for executing bilinear interpolation processing on the received data enhancement image so as to obtain and output a corresponding content processing image;

the color extraction mechanism is connected with the content enrichment equipment and is used for extracting color parameters of each pixel point forming the content processing image, and the color parameters of each pixel point comprise a red component, a blue component and a green component;

the signal identification equipment is connected with the signal extraction mechanism and is used for taking the pixel points with the color parameters falling in the purple color range as effective pixel points to obtain each effective pixel point in the content processing image;

wherein mapping and outputting the estimated time duration of the outage corresponding to the reference mean value comprises: the closer the reference mean value is to 255, the longer the estimated time length of the broken hand corresponding to the reference mean value is;

wherein determining the probability of being activated corresponding to the estimated length of time of disconnection based on the estimated length of time of disconnection comprises: the longer the estimated time length of the broken hand is, the lower the determined activation probability corresponding to the estimated time length of the broken hand is;

wherein, the values of the red component, the blue component or the green component in the color parameter of each pixel point are all between 0 and 255;

the data entry mechanism is also connected with the probability identification device and the duration analysis mechanism respectively and used for receiving and storing the survival probability and the estimated duration of the broken hands.

5. The system for resolving a probability of outage of claim 4, the system further comprising:

the voice playing chip is respectively connected with the probability recognition equipment and the time length analysis mechanism and is used for receiving and playing the survival probability and the estimated time length of the broken hand;

the instant display mechanism is also connected with the duration analysis mechanism and used for receiving and displaying the estimated duration of the broken hand.

6. The system for resolving a probability of disconnection/connection as claimed in claim 5, wherein:

the data enhancement device, the content enrichment device and the color extraction mechanism are adjacently arranged, and the distance from the content enrichment device to the color extraction mechanism is equal to the distance from the content enrichment device to the data enhancement device.

7. The system for resolving a probability of disconnection/connection as claimed in claim 6, wherein:

a signal input unit, a data processing unit and a signal output unit are arranged in the content enrichment equipment, and the data processing unit is respectively connected with the signal input unit and the signal output unit;

wherein, in the content enrichment apparatus, the signal input unit, the data processing unit, and the signal output unit share the same parallel data bus.

8. The system for resolving a probability of outage of claim 7, the system further comprising:

the LED display mechanism is connected with the data enhancement equipment and is used for displaying various operating parameters of the data enhancement equipment in real time;

the LED display mechanism is composed of a plurality of LED display units and a microcontroller, and the microcontroller is respectively connected with the LED display units;

the LED display units share the same row of data output interfaces and the same row of data output interfaces.

9. The system for resolving a probability of disconnection/connection as claimed in claim 8, wherein:

the color extraction mechanism is connected with a parameter configuration interface and is used for receiving various parameter control commands sent by the parameter configuration interface.