RU2421791C2 - Local diagnostic cause-associative semantic ophthalmo-microsurgical network - Google Patents

Abstract

FIELD: information technologies.

SUBSTANCE: local diagnostic cause-associative semantic ophthalmo-microsurgical computer network comprises formatting devices, besides, its formatting devices are arranged as automated workplaces (AWP), besides, to directly continuously distribute ophthalmo-microsurgical information, the output of each AWP is connected to the input of the subsequent AWP, at the same time in the network for inverse cyclic distribution of information, the outputs of AWP in medical functions, AWP of surgical and AWP of laser operational units are connected to the inputs of AWP in the area of primary optometric examinations, AWP in the area of diagnostic function ophthalmologists, AWP in the area of diagnostics physicians and AWP in the area of special research, and AWP of ophthalmologists area, diagnostics function, diagnostics physicians area, special research area, decision-making area form a radial-circular structure, and flows of direct and inverse information distribution form a single multigraph with at least 2 nodes and tops of equal priority.

EFFECT: expansion of functional resources of computer information transfer networks and industrial diagnostics complexes as a result of high-speed processing, analysis and synthesis of a large scope of information.

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Description

The invention relates to the field of computer networks.

Known devices for the sharing, management and transmission of information over a computer network according to the patent of the Russian Federation No. 2003130468.

A device for transmitting information, comprising: formatting means for formatting a document in code for presenting information contained in said document in a predetermined manner on a network device; compiling means for compiling said code into a compiled code file, such that a necessary element for creating or calling a first application for presenting said document and / or for creating or calling a second application presented with said document is included in said compiled code; distributing means for distributing said file over a computer network, either by uploading said file to a server, or by providing said file as accessible by transmission over a network with peers; redirection means for redirecting said compiled code of said file to a distribution channel for presenting said document on said network device, wherein upon receipt of said compiled code on said distribution channel, said necessary element creates or calls said first application for presenting said document in said predetermined manner and / or creates or invokes said second application for presentation with said -mentioned document.

However, this device has a significant drawback: it does not provide the creation of high-tech computer networks for the transmission, processing, analysis and synthesis of ophthalmic microsurgical information and the functioning of industrial diagnostic complexes.

The technical result is the creation and operation of high-tech adaptive computer networks for the transmission, processing, analysis and synthesis of ophthalmic microsurgical information and the functioning of industrial diagnostic complexes.

The technical result is achieved by the fact that in the local diagnostic causal-associative semantic ophthalmic microsurgical computer network containing formatting devices, characterized in that in the local diagnostic causal-associative semantic ophthalmic microsurgical computer network formatting devices are made in the form of automated workstations (AWP), and for direct continuous distribution of ophthalmic microsurgical information the outputs of each workstation is connected to the input of the last of the incoming workstation: the outputs of the automated workstation of the optometric research area are connected to the inputs of the automated workplace of the ophthalmologists' department of the diagnostic department, the outputs of the automated workplace of the ophthalmologist's zone of the diagnostic department are connected to the inputs of the automated workplace of the diagnostician’s area, the outputs of the automated workplace of the diagnostician’s area are connected to the inputs of the automated workplace of the special research area, the outputs of the automated workplace of the ophthalmologist’s zone of the diagnostic department, the zone of doctors of diagnostics, the zone of special studies are additionally connected with the inputs of the automated workplace of the zone of the first level of decision-making on refusal, the choice of type treatment, or delayed treatment, or referral of surgical operating units or laser operating units to the AWP; the outputs of the AWP of the first decision-making level are connected respectively with the inputs of the AWP of the medical departments, the AWP of the receiving department, the arm of the surgical or arm of the laser operating units, while the outputs of the arm of the departments, the arm of the surgical and arm of the laser operating units are connected to the arm inputs zones of primary optometric studies, AWP zone of ophthalmologists of the diagnostic department, AWP zone of doctors of diagnostics and AWP zone of special studies, while AWP zone of ophthalmol The cervical area, the diagnostic department, the zone of the doctor's diagnostics, the zone of special research, the decision-making zone form a radial-ring structure, while the flows of direct and reverse distribution of information form a single multigraph with at least two nodes and equal priority vertices.

Claimed by the authors previously unknown set of essential distinguishing features is necessary and sufficient to achieve a technical result.

The invention is illustrated in the drawing, which shows a diagram of a computer network.

The computer network contains formatting devices shown in the drawing. Ophthalmic microsurgical information transmission devices, compiling devices, distributing devices, overvoltage devices are not shown in the drawing.

The drawing indicates:

1 - AWP zone of primary optometric studies;

2 - AWP zone ophthalmologists of the diagnostic department;

3 - AWP zone for doctors of diagnosticians;

4 - AWP zone special research;

5 - AWP decision-making area;

6 - AWP zone of surgical operating units;

7 - AWP zones of laser operating units;

8 - AWP zones of medical departments;

9 - AWP zone reception department;

10 - decision on the impossibility of treatment;

11 - decision on delayed treatment;

12 - decision on therapeutic treatment;

13 - a decision on surgical treatment;

14 - decision on laser treatment;

15 - AWP columns for direct dissemination of information;

16 - AWP columns for backward dissemination of information.

To describe the functioning of the local diagnostic causal-associative semantic ophthalmomicrosurgical computer network, the terms of graph theory, the most appropriate methodology for solving this problem, were chosen.

The computer network proposed by the authors is as follows.

The local diagnostic causal-associative semantic ophthalmic microsurgical computer network contains formatting devices. Formatting devices are made in the form of automated workstations (AWS) with specialized software installed for them to enter and encode information in uniform formats, and when formatting for encoding ophthalmic microsurgical information, a single sequential set of control codes is used, consisting of a personalized patient identification code, type code examination of patient flows, medical services code, medical examination results code, plan code surgical intervention, or outpatient treatment, or refusal of treatment, or observation, codes of the surgical intervention performed.

Workstation 1 of the zone of primary optometric studies is associated with instruments measuring the curvature and refractive power of the cornea, its diameters and thickness, clinical eye refraction, spherical and cylindrical components.

AWP 3 zones of diagnosticians are connected with devices measuring the field of view, thresholds of electrical sensitivity and lability of the retina.

AWP 4 areas of special studies are connected with devices measuring linear and volumetric blood flow velocity, contours of intraocular structures, angiographic topograms.

AWP 2 zones of the ophthalmologists of the diagnostic department are associated with AWP 1 and AWP 3 and are designed to analyze individual information for each patient and develop a decision on further research and / or treatment.

For direct continuous dissemination of ophthalmomicrosurgical information, the outputs of each workstation are connected to the input of the subsequent workstation: the workstation 1 outputs of the optometric area are connected to the workstation 2 inputs of the ophthalmology department of the diagnostic department, the workstation 2 outputs of the diagnostic department ophthalmologist are connected to the workstation 3 inputs of the diagnostician’s area, workstation 3 outputs areas of doctors of diagnostics are connected with the inputs of the AWP 4 zones of special studies, while the outputs of the AWP 2 zones of the ophthalmologists of the diagnostic department, AWP 3 zones of doctors nostov, AWP 4 zones of special studies are additionally connected with inputs of AWP 5 zones of the first decision-making level. In AWP 5 decisions are made on refusal, the choice of type of treatment, or delayed treatment, or referral to AWP 6 of surgical operating units or AWP 7 of laser operating units; the outputs of the AWP 5 of the first decision-making level are connected respectively with the inputs of the AWP 8 of the medical departments, the AWP of the 9 receiving department, the AWP of 6 surgical or the AWP of 7 laser operating units, and the outputs of the AWP of 8 departments, the AWP of 6 surgical and the AWP 7 laser operating units, connected to the inputs of the automated workplace 1 zone of primary optometric studies, automated workplace 2 zones of ophthalmologists of the diagnostic department, automated workplace 3 zones of doctors of diagnostics and automated workplace 4 zones of special studies.

AWS 2, 3, 4 and 5 form a radial-ring structure, in which nodes 2, 3, 4 form a ring structure, linking the inputs with the outputs of the next node, and each node is connected by information flows to the decision-making node AWP 5.

In the drawing, the positions 10-14 indicate the neural elements of a computer network.

Pos.10 - decision on refusal in case of impossibility of treatment.

Pos.11 - decision on delayed treatment after a certain period of time. In this case, over time, the patient is again sent to the automated workplace of the zone of primary optometric studies.

Pos.12 - making decisions about the therapeutic treatment of the patient.

Pos.13 - making decisions about the surgical treatment of the patient.

Pos.14 - decision-making on laser treatment of the patient.

After decision 13 on laser treatment of the patient is made, information about the patient is sent to the automated workplace (item 7, drawing) of the laser department zone, where treatment is performed without hospitalization of patients.

After decision 14 on surgical treatment of the patient is made, information about the patient enters the workstation (pos. 8, drawing) of the surgical department area. From the automated workplace of the zone of the surgical departments, the information enters the automated workplace of the receiving department (item 9, drawing) and the patient enters the surgical operating unit (item 6, drawing). Information about the operation is received in the automated workplace of the medical department area (item 8, drawing). If it is necessary to conduct a second postoperative examination, the signal from the automated workplace of the surgical department area is sent to the automated workplace of the special examination area and / or automated workplace of the diagnosticians and / or automated workplace of the primary optometric examination area.

The drawing shows columns 15 direct and columns 16 backward distribution of information. All graphs form a single multigraph.

All vertices of the graphs have equal priorities, in which the parallel processing of information on the movement of patients is limited only by the bandwidth of the ribs, that is, the time of medical care in the respective offices.

Using the proposed invention allows for the functioning of high-tech computer networks for the transmission, processing, analysis and synthesis of ophthalmic microsurgical information and for the functioning of industrial diagnostic systems.

Claims (1)

Local diagnostic causal-associative semantic ophthalmic microsurgical computer network containing formatting devices, characterized in that in the local diagnostic causal-associative semantic ophthalmic microsurgical computer network formatting devices are made in the form of automated workstations (AWS), and for the direct continuous distribution of ophthalmic microsurgical information, the output of each workstation connected to the input of the subsequent AWP: outputs of the arm of the optometric zone the studies are connected with the inputs of the automated workplace of the ophthalmologists' zone of the diagnostic department, the outputs of the automated workplace zone of the ophthalmologists of the diagnostic department are connected with the inputs of the automated workplace of the zone of doctors of diagnostics, the outputs of the automated workplace of the zone of doctors of diagnostics are connected with the inputs of the automated workplace of the zone of special examinations, the outputs of the automated workplace of the ophthalmologist of the diagnostic department, the automated workplace of the diagnostician’s zone , The workstation of the special research zone is additionally associated with the inputs of the workstation of the zone of the first level of the decision to refuse, the choice of treatment or delayed treatment, or The direction in surgical operating units APM or APM laser operating units; the outputs of the AWP of the first decision-making level are connected respectively with the inputs of the AWP of the medical departments, the AWP of the receiving department, the arm of the surgical or arm of the laser operating units, while the outputs of the arm of the medical departments, the arm of the surgical and the arm of the laser operating units are connected to the inputs AWP zone of primary optometric studies, AWP zone of ophthalmologists of the diagnostic department, AWP zone of doctors of diagnostics and AWP zone of special studies, while AWP us ophthalmologists diagnostic compartment medical diagnosticians zone, zone special studies decision zones form a radially-ring structure, wherein the forward and reverse flows of information dissemination multigraph form one of at least two nodes and the vertices of equal priority.