CN117462079A - Intelligent prompt system, medium and equipment applied to intrinsic fluorescence lesion detector - Google Patents

Abstract

The invention relates to the technical field of message prompt, and discloses an intelligent prompt system, medium and equipment applied to an intrinsic fluorescence lesion detector, wherein the intelligent prompt system comprises: the intrinsic fluorescence detection module is used for detecting a specified part of a patient through intrinsic fluorescence, and the state detection module is connected with the intrinsic fluorescence detection module and is used for acquiring state information in the operation process in real time, wherein the state information comprises the running state of the intrinsic fluorescence detection module, environment information, the operation progress of an operator and the state of the patient; the intelligent prompt module is connected with the state detection module, gives a guiding prompt when the state information changes, gives an abnormal prompt when the state information is abnormal, and gives a guiding prompt of the whole-flow operation to an operator and a patient. The invention can ensure the integrity and accuracy of necessary information in the intrinsic fluorescence detection process, reduce the workload of operators, improve the detection and communication efficiency and improve the detection effect.

Description

Intelligent prompt system, medium and equipment applied to intrinsic fluorescence lesion detector

Technical Field

The invention relates to the technical field of message prompt, in particular to an intelligent prompt system, medium and equipment applied to an intrinsic fluorescence lesion detector.

Background

Tissue intrinsic fluorescence is also called autofluorescence, and is simply referred to as intrinsic fluorescence, which refers to fluorescence emitted by an autofluorescent substance (such as collagen, enzyme protein, tryptophan, porphyrin, etc.) of human tissue excited by irradiation of the human tissue with excitation light of a certain wavelength without any exogenous fluorescent substance. The identification of human tissue lesions can be realized by collecting and detecting the intrinsic fluorescence. Intrinsic fluorescence technology was originally born in the forty of the twentieth century, but is limited by the state of the art of the electronics industry and the theoretical studies of related disciplines, and was not primarily applied in the clinical field until the eighties. Commercialization of intrinsic fluorescence techniques for lesion detection has been the goal in recent years.

Artificial intelligence (Artificial Intelligence), AI) is a new technical science to study, develop theories, methods, techniques and application systems for simulating, extending and expanding human intelligence. The application of artificial intelligence to the intrinsic fluorescence diagnosis can significantly reduce the use threshold of the intrinsic fluorescence technology, improve the usability of the equipment and reduce the use cost of operators.

Although the existing intrinsic fluorescence detector, such as an electronic colposcope, primarily realizes the combination of digital electronic technology (an image capturing system) and computer technology, in the use process of the existing product, only the most basic composition and function of medical equipment, such as image acquisition and data processing functions, are generally considered, and intelligent applications such as data storage, intelligent reminding and the like are not provided. Therefore, in the actual use process of the product, operators (medical staff) need to constantly communicate with the patient in language, and prompt the patient to cooperate according to the requirements. The operational burden on the equipment operator is also greatly increased while the detection efficiency is low. Moreover, the use state and detection information of the existing product cannot be timely informed to an equipment operator, and the situation that important information is missed exists, so that the detection effect is poor.

Disclosure of Invention

Therefore, the technical problem to be solved by the invention is to overcome the defects in the prior art, and provide an intelligent prompt system, medium and equipment applied to an intrinsic fluorescence lesion detector, which can ensure the integrity and accuracy of necessary information in the intrinsic fluorescence detection process, reduce the workload of operators, improve the detection and communication efficiency and improve the detection effect.

In order to solve the technical problems, the invention provides an intelligent prompt system applied to an intrinsic fluorescence lesion detector, which comprises:

the intrinsic fluorescence detection module is used for detecting a designated part of a patient through intrinsic fluorescence;

the state detection module is connected with the intrinsic fluorescence detection module and acquires state information in the operation process in real time, wherein the state information comprises the running state of the intrinsic fluorescence detection module, environment information, the operation progress of an operator and the state of a patient;

the intelligent prompt module is connected with the state detection module and is used for giving a guiding prompt when the state information changes and giving an abnormal prompt when the state information is abnormal.

In one embodiment of the invention, the intelligent prompting module comprises a voice prompting module and a graphic prompting module, wherein the voice prompting module is used for sending out voice prompting information, the graphic prompting module is used for sending out graphic prompting information, and the voice prompting module and the graphic prompting module work simultaneously or independently.

In one embodiment of the present invention, the voice prompt module includes a playing device, which selects different sounds, different contents, and different contents detail levels to play the voice prompt information according to the status information;

the image-text prompting module displays image-text prompting information through the display equipment, and selects different contents and plays the image-text prompting information with different content detail degrees according to the state information.

In one embodiment of the present invention, the acquiring, in real time, state information during the operation process specifically includes:

different monitoring devices used in the intrinsic fluorescence detection module are determined according to different patient use scenes, a monitoring device list in the intrinsic fluorescence detection module used currently is obtained, running states are inquired and recorded in turn, and the inquired and recorded contents comprise an on-line state, an initialization state, a busy state and a parameter state of the monitoring device;

setting a sensor, and acquiring and recording current operating environment information through the sensor, wherein the environment information comprises equipment temperature, humidity and environment brightness during operation;

setting a personnel database and an operation step database, wherein operators and patients acquire personnel information through logging in or entering the personnel database, and the operation process acquires the current operation progress of the operators and the state of the patients through matching with the operation step database.

In one embodiment of the present invention, the intelligent prompt module includes an intelligent processing module, and the intelligent processing module uses artificial intelligence technology to analyze the state information, and sends a prompt content instruction to the intelligent prompt module according to the analysis result.

In one embodiment of the present invention, the intelligent processing module uses artificial intelligence to analyze the status information, specifically:

counting and classifying the acquired state information, wherein the classified state information comprises equipment running state information, environment information and user information;

repeatedly analyzing each type of classified state information, and removing redundant data in each type of state information to reserve key information;

and carrying out priority analysis on the key information in each type of state information, and respectively carrying out differential analysis on the key information in each type of state information and preset information according to the priority order to obtain a final analysis result.

In one embodiment of the invention, the system further comprises a self-feedback module which is respectively connected with the state detection module and the intelligent prompt module; the self-feedback module receives the state information acquired by the state detection module and the abnormal prompt and the guiding prompt generated by the intelligent prompt module in real time, and adjusts the prompt sent by the intelligent prompt module by matching the state information and the abnormal prompt and the guiding prompt in the same period.

In one embodiment of the present invention, the issuing of guidance prompts for full-flow operations to an operator and a patient includes:

issuing a guidance prompt for an operator for operation of the device, comprising: guiding prompts for steps of various examination procedures of the patient, and guiding prompts for re-operation or reset when abnormality occurs;

issuing guidance prompts for the coordinated actions to the patient, comprising: the guidance prompt of the preparation stage before the start of the inspection, the cooperation guidance prompt in the inspection, and the guidance prompt of the finishing stage after the completion of the inspection.

The invention also provides a computer readable storage medium having stored thereon a computer program which when executed by a processor performs the functions of the intelligent prompting system for an intrinsic fluorescence disorder detector.

The invention also provides intelligent prompt equipment applied to the intrinsic fluorescence lesion detector, which comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein the processor realizes the functions of the intelligent prompt system applied to the intrinsic fluorescence lesion detector when executing the computer program.

Compared with the prior art, the technical scheme of the invention has the following advantages:

according to the invention, the state detection module monitors the state of the intrinsic fluorescence detection module in real time in the working process, and the intelligent prompt module prompts the whole flow of the operator and the patient, so that the prompt information is flow-oriented and standardized, the integrity and accuracy of necessary information in the intrinsic fluorescence detection process can be ensured, the workload of the operator can be reduced in the detection process, the detection and communication efficiency can be improved, and the detection effect can be improved.

Drawings

In order that the invention may be more readily understood, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings, in which:

fig. 1 is an overall construction diagram of the present invention.

Fig. 2 is a process flow diagram of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific examples, which are not intended to be limiting, so that those skilled in the art will better understand the invention and practice it.

Referring to fig. 1-2, the invention discloses an intelligent prompt system applied to an intrinsic fluorescence lesion detector, which comprises an intrinsic fluorescence detection module, a state detection module and an intelligent prompt module. The operation flow of the system comprises the following steps:

s1: the intrinsic fluorescence detection module performs real-time examination on a specified part of a patient through intrinsic fluorescence. The intrinsic fluorescence detection module in this embodiment may be an existing detector that can identify lesions by detecting intrinsic fluorescence using an electronic colposcope or the like.

S2: the state detection module is connected with the intrinsic fluorescence detection module and acquires state information in the operation process in real time, wherein the state information comprises the running state of the intrinsic fluorescence detection module, environment information, the operation progress of an operator (usually a clinician), the state of a patient and the like, and the state information is transmitted to the intelligent prompt module.

The method comprises the steps of acquiring state information in the operation process in real time, wherein the state information comprises the following specific steps: different monitoring devices used in the intrinsic fluorescence detection module are determined according to different patient use scenes, a monitoring device list in the intrinsic fluorescence detection module used currently is obtained, running states are inquired and recorded in turn, and the inquired and recorded contents comprise an on-line state, an initialization state, a busy state and a parameter state of the monitoring device; setting a sensor, and acquiring and recording current operating environment information through the sensor, wherein the environment information comprises equipment temperature, humidity and environment brightness during operation; setting a personnel database and an operation step database, wherein operators and patients acquire personnel information through logging in or entering the personnel database, and the operation process acquires the current operation progress of the operators and the state of the patients through matching with the operation step database.

S3: the intelligent prompt module is connected with the state detection module, and the intelligent prompt module gives a guiding prompt when the state information changes, and gives an abnormal prompt when the state information is abnormal, and gives guiding prompts of full-flow operation to operators and patients.

The intelligent prompt module comprises a voice prompt module and a picture and text prompt module, wherein the voice prompt module is used for sending out voice prompt information, the picture and text prompt module sends out picture and text prompt information, and the voice prompt module and the picture and text prompt module work simultaneously or independently. The two prompting modes of voice and image-text can be used independently or in combination.

The voice prompt module comprises a playing device, wherein different sounds, different contents and different content detailed degrees are manually or automatically selected according to the state information to play voice prompt information; the playback device in this embodiment may be a speaker, a horn, or the like. The played sound may use different sounds such as male sound, female sound, electronic synthesized sound, etc., as needed. And sending out voice prompts corresponding to each process in abnormal conditions or guiding voice prompts of the process according to the running state of the intrinsic fluorescence detection module, the environment information, the operation progress of an operator and the state of a patient. The detail level of the content is divided into a plurality of levels, which can be selected according to the requirements of users and patients, and the voice prompt in the embodiment can be divided into three levels of a simple mode, a standard mode and a rich mode according to the detail level of the content: only essential important prompts are prompted in the concise mode, the number of prompts is increased on the basis of the simple mode in the standard mode, the content possibly needing prompting is increased, and the content involved in all the processes is prompted in detail in the rich mode, wherein various notes and suggestions are included. Different sounds, different content, different levels of detail may be manually selected by the operator or patient, or may be a default initial mode. The initial module can be any one of various sounds, contents and levels, and can be randomly selected or adjusted according to the needs of users.

The image-text prompt module displays image-text prompt information through display equipment, and the display equipment can be a display; and selecting different contents manually or automatically according to the state information, and playing the graphic prompting information with different content detail degrees. The image-text prompt information can be the information which is needed to be prompted by combining images (or animation and video) with descriptive text. Similar to the voice broadcasting mode, the method is classified into three levels of a succinct mode, a standard mode and a rich mode according to the detail level of the content. The default mode is a standard mode, and the user can adjust the mode according to the needs.

The invention can prompt by one or more presentation modes of voice, text and image, and can give different prompt contents and prompt modes according to the change of application scenes. The graphics context can be in the form of static images and characters, dynamic images and characters, or a combination of sound, descriptive characters and video.

The intelligent prompt module further comprises an intelligent processing module, the intelligent processing module analyzes the state information by using an artificial intelligent technology, and sends a prompt content instruction to the intelligent prompt module according to an analysis result, and a proper prompt mode is selected for prompt. The intelligent processing module analyzes the state information by using an artificial intelligence technology, and specifically comprises the following steps:

firstly, the acquired state information is counted and classified, and the classified state information comprises equipment running state information, environment information, user information and the like.

And secondly, repeatedly analyzing each type of classified state information, and removing redundant data in each type of state information to retain key information. The repeatability analysis in this example is: unique information number codes are arranged corresponding to each type of state information, and repeated state information is deleted through screening the information number codes. Meanwhile, the information numbering code has a child-parent level relation, namely, one or more pieces of state information are child levels of another type of state information, and subset information is deleted uniformly by the state information which exists at the same time for the child level and the parent level, so that parent level information is reserved.

And finally, carrying out priority analysis on the key information in each type of state information, and respectively carrying out differential analysis on the key information in each type of state information and preset information according to the priority order to obtain a final analysis result. The priority analysis in this embodiment is: and analyzing the emergency degree in the state information, and classifying the emergency degree of the state information of different number codes by the intelligent prompt module after leaving the factory, wherein the emergency degree is generally classified into two levels. The emergency level is classified into preemptive priority and responsive priority. Wherein responsive priorities are also referred to as secondary priorities. State information with high preemptive priority may be responded to, i.e., state information nesting, during the processing of state information with low preemptive priority. The method used in the differential analysis is usually a pairwise comparison method, and is a continuous bubbling comparison method.

When the preemptive priorities of two state information sources are the same, the two state information sources have no nesting relationship, and when one state information arrives, if the other state information is being processed, the later arriving state information can be processed after the previous state information is processed. If the two pieces of state information arrive at the same time, the state information controller decides which one to process first according to the response priority level of the two pieces of state information; if their preemptive and response priorities are equal, then which one to process first is decided based on their order of ranking in the state information table.

The information such as the running state of the intrinsic fluorescence detection module, the environment information, the operation progress of an operator, the state of a patient and the like can be updated to the intelligent prompt module in real time, and the intelligent prompt module is responsible for integrating and analyzing the information and labeling the information needing to be prompted. There is typically the following process: after the intelligent prompt module takes the state information, the available peripheral equipment is subjected to data arrangement on the environment information and the personnel information, and the arranged data information is sent to the intelligent processing module. The intelligent processing module generally needs to perform physical operations according to the received information, for example, the device is connected to the display instead of being connected to the voice prompt peripheral device, and the environment brightness exceeds the standard threshold value, so that prompt is needed. The prompting mode is to display color prompting such as highlighting, flashing and the like on the display. The specific prompting modes include a factory preset mode and a user-defined mode, wherein the user-defined mode can define highlighting brightness, prompting color, flashing period and the like. Similarly, the sound reminding is divided into a buzzing reminding and a voice reminding, wherein the buzzing reminding is used as system abnormality, such as equipment abnormality and environment parameter abnormality. The voice prompt is used for prompting the user to operate the flow and the operation notice.

Issuing guidance prompts for full-flow operations to an operator and a patient, comprising:

issuing a guidance prompt for an operator for operation of the device, comprising: guiding prompts for steps of various examination procedures of the patient, and guiding prompts for re-operation or reset when abnormality occurs; normally, when the equipment is in a normal state, no prompt is given; when the equipment is in abnormal operation or has errors, the operator is prompted to deal with.

Issuing guidance prompts for the coordinated actions to the patient, comprising: the guidance prompt of the preparation stage before the start of the inspection, the cooperation guidance prompt in the inspection, and the guidance prompt of the finishing stage after the completion of the inspection. The function is oriented to the patient, replaces the condition that the operator needs to communicate orally to the patient at present, gives corresponding guiding prompt information to the patient in the corresponding operation flow, comprises a pre-preparation stage, a mid-examination stage and a later finishing completion stage, and effectively improves the efficiency while avoiding prompt errors.

The intelligent prompt system for the intrinsic fluorescence lesion detector in the embodiment further comprises a self-feedback module which is respectively connected with the state detection module and the intelligent prompt module; the self-feedback module receives the state information acquired by the state detection module and the abnormal prompt and the guiding prompt generated by the intelligent prompt module in real time, and adjusts the prompt sent by the intelligent prompt module by matching the state information and the abnormal prompt and the guiding prompt in the same period; setting the priority of various prompts sent by the intelligent prompt module, and if an operator or a patient changes on the basis of the prompts sent by the original intelligent prompt module, such as voice, content detail degree and the like, increasing the priority of the prompts after the changes. Along with the accumulation of the using times of the equipment, the prompt strength and the content are intelligently adjusted, the lower limit of the intelligent adjustment is a simple mode (because the content is indispensable and important in this part), and the dynamic adjustment of the prompt is realized.

The intrinsic fluorescence detection module starts from starting, the state detection module starts synchronously, and the system is intelligently prompted to wait on line. In the using process of each device in the intrinsic fluorescence detection module, the state detection module monitors the states of each device, an operator and a patient, and the intelligent prompt module gives corresponding prompts to the operator and the patient according to the process progress; when the state of the equipment changes, the corresponding prompt is given to an operator. For example, in a hospital scenario, when a patient arrives at the examination couch, the intelligent prompting system prompts the patient to lie on the examination couch and keep a proper posture, prompts the patient how to cooperate with a doctor to operate in the examination process, prompts the patient to keep a resting state when photographing is needed, and prompts the patient to return to a later notice after the examination is completed. Further, on the basis of being able to complete the basic functions, the operator can also be prompted about the running state information of the equipment, such as the information that the equipment consumable such as the bulb is about to expire, the remaining ink amount of the printer is not large, the printing paper is insufficient, no patient is on site, and the like.

The invention also discloses a computer readable storage medium, on which a computer program is stored, which when being executed by a processor, realizes the functions of the intelligent prompt system applied to the intrinsic fluorescence disorder detector.

The invention also discloses a device, which comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein the processor realizes the functions of the intelligent prompt system applied to the intrinsic fluorescence disorder detector when executing the computer program.

According to the invention, the state of the intrinsic fluorescence detection module in the working process is monitored in real time through the state detection module, and the intelligent prompt module is used for prompting the whole flow of an operator and a patient, so that the flow and standardization of prompt information can be realized, and the integrity and accuracy of necessary information in the intrinsic fluorescence detection process can be ensured. The invention selects a reasonable and effective prompting mode to be presented through analyzing the state information, and assists an operator and a patient to efficiently finish the detection of the intrinsic fluorescent lesions. The invention can be applied to physical examination centers using intrinsic fluorescence detection equipment or screening detection, assists doctors in guiding the front-back sequence of patients, reduces the workload of operators in the detection process, improves the detection and communication efficiency and improves the detection effect.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations and modifications of the present invention will be apparent to those of ordinary skill in the art in light of the foregoing description. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present invention.

Claims (10)

1. An intelligent prompting system applied to an intrinsic fluorescence lesion detector, comprising:

the intrinsic fluorescence detection module is used for detecting a designated part of a patient through intrinsic fluorescence;

the state detection module is connected with the intrinsic fluorescence detection module and acquires state information in the operation process in real time, wherein the state information comprises the running state of the intrinsic fluorescence detection module, environment information, the operation progress of an operator and the state of a patient;

the intelligent prompt module is connected with the state detection module and is used for giving a guiding prompt when the state information changes and giving an abnormal prompt when the state information is abnormal.

2. The intelligent prompting system for an intrinsic fluorescence lesion detector according to claim 1, wherein: the intelligent prompt module comprises a voice prompt module and a picture and text prompt module, wherein the voice prompt module is used for sending out voice prompt information, the picture and text prompt module sends out picture and text prompt information, and the voice prompt module and the picture and text prompt module work simultaneously or independently.

3. The intelligent prompting system for an intrinsic fluorescence lesion detector according to claim 2, wherein: the voice prompt module comprises a playing device, wherein different sounds, different contents and different content detailed degrees are selected according to the state information to play voice prompt information;

the image-text prompting module displays image-text prompting information through the display equipment, and selects different contents and plays the image-text prompting information with different content detail degrees according to the state information.

4. The intelligent prompting system for an intrinsic fluorescence lesion detector according to claim 1, wherein: the real-time acquisition of the state information in the operation process comprises the following steps:

different monitoring devices used in the intrinsic fluorescence detection module are determined according to different patient use scenes, a monitoring device list in the intrinsic fluorescence detection module used currently is obtained, running states are inquired and recorded in turn, and the inquired and recorded contents comprise an on-line state, an initialization state, a busy state and a parameter state of the monitoring device;

setting a sensor, and acquiring and recording current operating environment information through the sensor, wherein the environment information comprises equipment temperature, humidity and environment brightness during operation;

setting a personnel database and an operation step database, wherein operators and patients acquire personnel information through logging in or entering the personnel database, and the operation process acquires the current operation progress of the operators and the state of the patients through matching with the operation step database.

5. The intelligent prompting system for an intrinsic fluorescence lesion detector according to claim 1, wherein: the intelligent prompt module comprises an intelligent processing module, the intelligent processing module analyzes the state information by using an artificial intelligent technology, and sends a prompt content instruction to the intelligent prompt module according to an analysis result.

6. The intelligent prompting system for an intrinsic fluorescence lesion detector according to claim 5, wherein: the intelligent processing module analyzes the state information by using an artificial intelligence technology, and specifically comprises the following steps:

counting and classifying the acquired state information, wherein the classified state information comprises equipment running state information, environment information and user information;

repeatedly analyzing each type of classified state information, and removing redundant data in each type of state information to reserve key information;

and carrying out priority analysis on the key information in each type of state information, and respectively carrying out differential analysis on the key information in each type of state information and preset information according to the priority order to obtain a final analysis result.

7. The intelligent prompting system for an intrinsic fluorescence lesion detector according to claim 1, wherein: the self-feedback module is respectively connected with the state detection module and the intelligent prompt module; the self-feedback module receives the state information acquired by the state detection module and the abnormal prompt and the guiding prompt generated by the intelligent prompt module in real time, and adjusts the prompt sent by the intelligent prompt module by matching the state information and the abnormal prompt and the guiding prompt in the same period.

8. The intelligent cueing system for intrinsic fluorescence lesion detectors according to any of claims 1-7, wherein: the guiding prompt for sending the whole-process operation to the operator and the patient comprises the following steps:

issuing a guidance prompt for an operator for operation of the device, comprising: guiding prompts for steps of various examination procedures of the patient, and guiding prompts for re-operation or reset when abnormality occurs;

issuing guidance prompts for the coordinated actions to the patient, comprising: the guidance prompt of the preparation stage before the start of the inspection, the cooperation guidance prompt in the inspection, and the guidance prompt of the finishing stage after the completion of the inspection.

9. A computer-readable storage medium having stored thereon a computer program, characterized by: the computer program, when executed by a processor, performs the functions of the intelligent prompting system as claimed in any one of claims 1-8 for use in an intrinsic fluorescence disorder detector.

10. Be applied to intelligent suggestion equipment of intrinsic fluorescence pathology detector, its characterized in that: a computer program comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the functionality of the intelligent guidance system according to any of claims 1-8 for application to an intrinsic fluorescence disorder detector when the computer program is executed.