A lap 2023. április 30., 09:46-kori változata

Recommended learning materials for autodidactic learning

International literature

• PDF-files:
  • https://www.cds.caltech.edu/~murray/courses/cds101/fa04/caltech/am04_ch2-3oct04.pdf
  • https://csis.pace.edu/~marchese/CS389/L5/Chap5_summary.pdf
  • https://www.gaudisite.nl/SystemModelingAndAnalysisBook.pdf
  • https://shamsulsarip.files.wordpress.com/2015/07/system-modelling-and-simulation.pdf
  • https://ptolemy.berkeley.edu/books/Systems/PtolemyII_DigitalV1_02.pdf
  • ...
• YOUTUBE-objects:
  • https://youtu.be/tcdKe1gmfpc
  • https://www.youtube.com/results?search_query=system+modelling
  • ...
• WIKI-articles (see Annexes)

MIAU-objects

• PDF:
  • https://miau.my-x.hu/miau/196/My-X%20Team_A5%20fuzet_EN_jav.pdf (c.f. innovative knowledge representation)
• Online Expert Systems and Frame System for Expert System Development:
  • https://en.wikipedia.org/wiki/Expert_system (c.f. https://miau.my-x.hu/myx-free/index_en.php3?x=robots)
  • https://miau.my-x.hu/myx-free/ego_en/ (parallel, it is a demo for matured (thesis-oriented) applications)
• (futher recommendations can be sent for the conductors per email)

Avatar-based learning materials

• https://miau.my-x.hu/mediawiki/index.php?title=Speci%C3%A1lis%3AKeres%C3%A9s&search=quilt&go=Menj
• https://miau.my-x.hu/miau/quilt/2020/quilt2/
  • https://miau.my-x.hu/miau/quilt/2020/quilt2/launching2020III25/part0.html
  • https://miau.my-x.hu/miau/quilt/2020/quilt2/launching2020III25/part1a.html
  • https://miau.my-x.hu/miau/quilt/2020/quilt2/launching2020III25/part1b.html
  • https://miau.my-x.hu/miau/quilt/2020/quilt2/launching2020III25/part1c.html
  • https://miau.my-x.hu/miau/quilt/2020/quilt2/launching2020III25/part1d.html
  • https://miau.my-x.hu/miau/quilt/2020/quilt2/launching2020III25/part2a.html
  • https://miau.my-x.hu/miau/quilt/2020/quilt2/launching2020IV01/part2b.html
  • https://miau.my-x.hu/miau/quilt/2020/quilt2/launching2020IV01/part2c.html
  • https://miau.my-x.hu/miau/quilt/2020/quilt2/launching2020IV08/part2d.html
  • https://miau.my-x.hu/miau/quilt/2020/quilt2/launching2020IV15/part3.html
  • https://miau.my-x.hu/miau/quilt/2020/quilt2/launching2020IV22/part4.html
  • https://miau.my-x.hu/miau/quilt/2020/quilt2/launching2020IV29/part5.html
  • https://miau.my-x.hu/miau/quilt/2020/quilt2/launching2020V06/part6.html
  • https://miau.my-x.hu/miau/quilt/2020/quilt2/launching2020V13/part7.html
  • https://miau.my-x.hu/miau2009/index.php3?x=miau128&where[indexkod]=miau261

FAQ concerning the course

• Q1: Is there some recommendations about the title + abstract of the planned thesis?
• A1: Yes: https://miau.my-x.hu/mediawiki/index.php/BPROF_Thesis1

• Q2: Is there some examples concerning system-modeling-layers of a thesis?
• A2: Yes: https://miau.my-x.hu/mediawiki/index.php/System-modeling#Personalized_tasks.2Fwiki-articles_with_system_modeling_challenges

• Q3: When will be held the next international conference?
• A3: https://www.iksadinstitute.org/invitation

• Q4: Which structure can be used for a thesis?
• A4: https://miau.my-x.hu/mediawiki/index.php/BPROF_Thesis_Structure

• Q5: How to use MIAUWIKI as Reader?
• A5: It is always possible to check the HISTORY-page of each MIAUWIKI-article (e.g., https://miau.my-x.hu/mediawiki/index.php?title=System-modeling&action=history), in order to see whether new impulses are existing or not...

• Q6: Where can I see the last activities in frame of MIAUWIKI?
• A6: https://miau.my-x.hu/mediawiki/index.php/Speci%C3%A1lis:Friss_v%C3%A1ltoztat%C3%A1sok

• Q7: Are subjective opinions of the author(s) part of the documentations (thesis)?
• A7: NO! (Exception: Chapter about the motivations of the author(s) - https://miau.my-x.hu/mediawiki/index.php/BPROF_Thesis_Structure#Content)

• Q8: Is it possible to work in team?
• A8: YES! (But the thesis should always be a unique product of one single author.)

• Q9: Is this course really lecture-less?
• A9: Yes, we have to cooperate concerning real problems. The theoretical aspects will be integrated into the creation-processes.

• Q10: What is the MOTTO of the BPROF-education?
• A10: Learning by doing!

• Q11: What is the most important keyword of the BPROF-education?
• A11: Sovereignty = willingness for problem solving mostly alone and based on all sources but at first always through own interpretations

• Q12: Is it possible to close a course sooner, than the official end of a semester?
• A12: Yes!

• Q13: ...
• A13: ...

Personalized tasks/wiki-articles with system modeling challenges

Online dietetic expert (ODE)

Background information: https://miau.my-x.hu/mediawiki/index.php/BPROF_Thesis1

• How to model anti-discrimination? (Which cheese is better than the other one concerning dietetic benchmarks/expectations/recommendations?)
  • Demo: XLSX based on random data (asap)
    • Version#1: OAM with raw data (ingredients %) = prima primissima award for cheese-variations (c.f. cheese of the year)
    • Version#2: OAM with differences compared to the expectations coming from the dietetic expert
• How to model price/performance ratios? (Which product is worth consuming?)
  • Demo: XLSX based on random data (asap)
    • Version#1: OAM with raw data (ingredients %) = prima primissima award for cheese-variations concerning economic aspects (c.f. cheese of the year) / Y = price
    • Version#2: OAM with differences compared to the expectations coming from the dietetic expert / Y = price
• How to optimize/model animal/human feed/food ratios? (Which mixture best covers the expectations?)
  • Demo: XLSX based on random data (asap)
• How to derive the top 'n' attribute with the highest impact e.g., for product price? (this challenge is part of the general problem about the price/performance-ratios)
  • Demo: XLSX based on random data (asap)
    • Version#1: OAM with raw data (ingredients %) = prima primissima award for cheese-variations concerning economic aspects (c.f. cheese of the year) / Y = price
    • Version#2: OAM with differences compared to the expectations coming from the dietetic expert / Y = price
• ...
  • Demo: ...

A bad (benchmarking) example and a better (good?) example for clarification of model-structures

• description of an innovative chat-bot-development in a massive journalistic way: https://miau.my-x.hu/miau/295/gpt_demo.docx
  • Conclusions:
    • it seems to be trivial, which inputs (given tokens) lead to what kind of outputs (expected token(s))
    • it is here and now still not given: what is the process between inputs and outputs
• description of a service having a payment policy and demo-views: https://miau.my-x.hu/miau2009/index_tki.php3?_filterText0=*chat-bot
  • KNUTH-principle: https://miau.my-x.hu/miau2009/index_tki.php3?_filterText0=*knuth
    • if somebody says, I do understand something, it is necessary to be capable producing a demo e.g. at least with random data or based on flow-charts, formulas, etc.
  • Conclusions:
    • it does not seem to be trivial, which inputs (e.g., sentences of employees?) lead to what kind of outputs (expected answers/reaction? - but about what kind of content? why?)
    • it is here and now also still not given: what is the process between inputs and outputs
  • KNUTH-principle: https://miau.my-x.hu/miau2009/index_tki.php3?_filterText0=*knuth
    • if somebody says, I do understand something, it is necessary to be capable producing a demo e.g. at least with random data or based on flow-charts, formulas, etc.

Expert system for fine-tuning IT-security systems (ES-FITS)

• Negotiation phase Nr.1. (a1_c1): https://miau.my-x.hu/bprof/2023/thesis02_a1_c1.docx
• Negotiation phase Nr.1. (a2_c2): https://miau.my-x.hu/bprof/2023/thesis02_a2_c2.docx
• Negotiation phase Nr.1. (a3_c3): https://miau.my-x.hu/bprof/2023/thesis02_a3_c3.docx
• Demo for data-collection: https://miau.my-x.hu/bprof/2023/data_for_email_phishing_risk_estimation.xlsx
• Demo for data analyses: https://miau.my-x.hu/bprof/2023/data_for_email_phishing_risk_estimation_2.xlsx
• Demo for data analyses: https://miau.my-x.hu/bprof/2023/data_for_email_phishing_risk_estimation_3.xlsx
• Analogy: https://miau.my-x.hu/bprof/2023/analogy.xlsx
• Average and/or sum vs. weighted solution: https://miau.my-x.hu/bprof/2023/analogy_v2_v3.xlsx (but: why are all weights = 1?)
• Can we have the same evaluation value in case of each object? - https://miau.my-x.hu/bprof/2023/same_evaluation_values.xlsx
  • Why the average ranks do not produce the sameness?
  • Why the optimized evaluation can produce the sameness?
• Potential adaptation-challenges:
  • Who is the most risky employee/partner?
  • Which volume of damage (IT-risk) can be expected from an employee/partner based on their behavior statistics?
• Conclusions:
  • it is important to be capable of cooperating with chatGPT: c.f. https://miau.my-x.hu/miau/297/Chat-GeePeeTee_vs_Pratchett-G-Pete_nr1.docx
  • it is important to be capable of handling with optimization challenges (incl. weighting, scoring, anti-discrimination)
  • ...

Necessity of a middle-ware for banks (NMB)

• Negotiation phase Nr.1. (a1_c1): https://miau.my-x.hu/bprof/2023/thesis03_a1_c1.docx
• Negotiation phase Nr.2. (a2_c2):
  • HU: https://miau.my-x.hu/bprof/2023/FINANCE%20PROCESS%20AUTOMATION%20abstract_pl.docx
  • EN: https://miau.my-x.hu/bprof/2023/FINANCE%20PROCESS%20AUTOMATION%20abstract_pl_en.docx
  • EN2: https://miau.my-x.hu/bprof/2023/FINANCE%20PROCESS%20AUTOMATION%20abstract_pl2.docx
  • EN3: https://miau.my-x.hu/bprof/2023/FINANCE%20PROCESS%20AUTOMATION%20abstract_pl2%20(1).docx
• Negotiation phase Nr.3. - demo-XLS: https://miau.my-x.hu/miau/296/risk_index_naive_regression_coco.xlsx

Automation of Incident Response Planning in IT Security (AIR-P-ITS)

• Negotiation phase Nr.1. (a1_c1): https://miau.my-x.hu/bprof/2023/thesis04_a1_c1.docx
• Negotiation phase Nr.2. (a2_c2): https://miau.my-x.hu/bprof/2023/thesis04_a2_c2.docx
• Negotiation phase Nr.3. (a3_c3): https://miau.my-x.hu/bprof/2023/thesis04_a3_c3.docx
• Negotiation phase Nr.4. (a4_c4): https://miau.my-x.hu/bprof/2023/thesis04_a4_c4.docx
• Data-for-password-attack-models: https://miau.my-x.hu/bprof/2023/data_for_password_attack_models.xlsx
• XLSX (v2): https://miau.my-x.hu/bprof/2023/data_for_password_attack_models%20(2).xlsx
• XLSX (v3): https://miau.my-x.hu/bprof/2023/data_for_password_attack_models%20(3).xlsx
• XLSX (v4): https://miau.my-x.hu/bprof/2023/data_for_password_attack_models%20(4).xlsx
• XLSX (v5): https://miau.my-x.hu/bprof/2023/data_for_password_attack_models%20(5).xlsx
• regression model: https://miau.my-x.hu/bprof/2023/damages_regression.xlsx

ADAPTATION CHALLENGE: https://miau.my-x.hu/bprof/2023/adaptation_challenge.docx
Adapted solution v1: https://miau.my-x.hu/bprof/2023/company_ideality_index.xlsx
Expertise (with formula=model): https://miau.my-x.hu/bprof/2023/company_ideality_index_formula.xlsx
Expertise (with formula=model): https://miau.my-x.hu/bprof/2023/company_ideality_index_formula (2).xlsx

Conclusions:

• it is important to be capable of identifying OAMs (objects and attributes with real data - e.g., log-data) - (c.f. adaptation-challenge)
  • based on human intuitions (c.f. willingness, creativity, motivation, etc.)
  • and/or based on chatGPT (supporting OAM-definitions - c.f. https://miau.my-x.hu/miau/297/Chat-GeePeeTee_vs_Pratchett-G-Pete_nr1.docx)
• it is important to be capable of deriving data processing alternatives (depends on real goals)
• it is important to be capable of automation of data collection and data processing (where algorithms are just planned in a proper way if chatGPT can also write codes)
• ...

Antivirus project

• https://miau.my-x.hu/bprof/2023/antivirus_v1.docx
• https://miau.my-x.hu/bprof/2023/Key%20Features%20of%20mobile%20Anti-Virus%20and%20their%20specifications.docx
• https://miau.my-x.hu/bprof/2023/antivirus_oam1.xlsx
  • We need a relevant question and an appropriate OAM for this question
  • e.g., Why can be used an object for free?
  • it means: we need the differences instead of the samenesses
• The price/performance analyses let derive the conclusion: there are relevant attributes not given!

Health care project

• https://miau.my-x.hu/bprof/2023/healthcare.docx
• https://miau.my-x.hu/miau/299/health_consciousness.xlsx
  • The health-informatics has to handle with health statistics.
  • One of the most trivial challenges is the optimized aggregation of unique impacts.
  • The above-mentioned XLS-file presents examples, how to process statistics about health acitivities.
• New data:
  • https://miau.my-x.hu/bprof/2023/hlth_rs_tech_spreadsheet.xlsx
  • https://miau.my-x.hu/bprof/2023/yth_educ_020__custom_5673119_spreadsheet.xlsx
  • https://miau.my-x.hu/bprof/2023/tsc00025__custom_5673081_page_spreadsheet.xlsx
• More interpretations:
  • https://miau.my-x.hu/bprof/2023/healthcare%20(1).docx
  • https://miau.my-x.hu/bprof/2023/healthcare%20(2).docx
• Statistic-like OAM vs real OAM for modelling:
  • https://miau.my-x.hu/bprof/2023/hrst_st_nsecsex2__custom_5685709_spreadsheet.xlsx
• Pivot-solution for differences:
  • demo: https://miau.my-x.hu/bprof/2023/random_like_balances.xlsx
  • Pivot table for derivation of differences: https://miau.my-x.hu/bprof/2023/hrst_st_nsecsex2__custom_5732275_spreadsheet_v2.xlsx
• New approach for futher adaptations:
  • https://miau.my-x.hu/miau/299/rd_eu.xlsx

Log-analysis

• https://miau.my-x.hu/bprof/2023/log_analysis.docx
• https://miau.my-x.hu/miau/299/log_analysis_wifi.xlsm

LINUX-bubble?!

• https://miau.my-x.hu/miau/299/linux.xlsx
• Will=should we have new LINUX releases?

Detecting Vehicle Malfunctions using Acoustic Data and AI

• Demo:
  • https://miau.my-x.hu/miau/280/degradation_path_01.xlsx
  • https://miau.my-x.hu/miau2009/index.php3?x=e0&string=bearing.wear
• Abstract:
  • 2023.III.20.: https://miau.my-x.hu/bprof/2023/Detecting%20Vehicle%20Malfunctions%20using%20Acoustic%20Data%20and%20AI.docx
  • 2023.III.21.: ...
• Tasks:
  • Next step is an OAM based on the bearing-wear-documentation.
  • The first system model could be a new approach based on the available data.
  • A new approach is a new OAM + the question needing an answer based on the OAM.
  • A new OAM should have other objects and other attributes (incl other values) compared to the existing one (see doc and xls).
  • A new question can be concerned an estimation or forecast or evaluation or ...
• Micro-projects (#1-2-3):
  • https://miau.my-x.hu/miau/299/bearing_abcdef.xlsx
  • The previous phase of the bearing-wear-project (https://miau.my-x.hu/miau2009/index.php3?x=e0&string=bearing.wear) derived already a lot of consistence layers.
  • A realistic/new goal could be: producing further consistence layers.
  • This can be achieved, if
    • the entire OAM will be segmented based on the life-cycle of the bearnings (ABCDEF)
    • each phase (ABCDEF) will be modelled incl. the average value for case#11
    • each estimation will be interpreted
      • based on the relationships between averages and estimations
      • based on the staircase functions (where a kind of massive homogentiy should be detected, because we observe quasi the same physical system)
    • These analytical steps could have been executed in a cooperative process, but it is also valuable if you want to be caapbe of reproducing of all these steps...
    • (Of course: there are further unlimited possibilities to create totally new analyses!)

NCM-project & Symmetry-project

• https://miau.my-x.hu/miau2009/index.php3?x=e0&string=l.v.radi
• ...

Hydrogen-project

• https://miau.my-x.hu/miau2009/index.php3?x=e0&string=hammerl
• ...

Robot-eye for kicker-talent-identification (REFKI)

• https://miau.my-x.hu/miau/296/refki_abstract.docx (finetuning: ASAP)
• https://miau.my-x.hu/miau/296/refki_demo.xlsx
• https://miau.my-x.hu/miau/297/starlight_v1.docx
• https://miau.my-x.hu/miau/297/starlight_v1.xlsx (asap)
• ...

Robot-citizen

• IT-view: https://miau.my-x.hu/miau/295/robot_citizen.docx
• "BIO"-view: https://miau.my-x.hu/miau/295/human_ethology_ecology_robotized.docx
• OAM-based thinking with chatGPT: https://miau.my-x.hu/miau/297/Chat-GeePeeTee_vs_Pratchett-G-Pete_nr1.docx

...

• ...

Integration of Google Trends time-series in different ways for self-check-mechanisms

• https://miau.my-x.hu/miau/297/google_trends_data_integration_variations.xlsx
  • there is no transformation needed if the dominant object (SK) is the anchor for each CSV
  • if the anchor is not the dominant object (c.f. HU), then the necessary transformation may to lead to the same results
• self-check-layers:
  • the dominant object have to have always the same data independent from the parallel available objects in the queries
  • the non-dominant-object-based calculation have to lead to the same results as in case of the dominant object (without transformation needs)
    • (where the sameness as such must be interpreted as a kind of approximation with potential +/-1 unit difference because of integer values of the CSV-files)
• https://miau.my-x.hu/miau/287/tutorial_google_trends_5plus.xlsx
  • programming concepts

Remarks: system models can be defined in different complexity levels (c.f. optimized estimation of risk-potentials based on raw data vs. checking/preparation of raw data)

...

• ...

Other courses

• System-planning = e.g., logical, visual, etc. specifications about the planned software (modules) vs. System-modeling = e.g., knowledge representation modules (independent from software-realization)
  • Demo materials:
    • demo: https://miau.my-x.hu/myx-free/ebalance/
    • demo: https://miau.my-x.hu/mediawiki/index.php/BPROF:2dm
  • Basic information:
    • https://en.wikipedia.org/wiki/Planning
    • https://en.wikipedia.org/wiki/Business_systems_planning
    • https://computersciencewiki.org/index.php/System_planning
• ...

Annexes

Structure of MIAU-WIKI:

• Discussion page: https://miau.my-x.hu/mediawiki/index.php/Vita:System-modeling#How_will_a_grade_be_derived.3F
• History-page: https://miau.my-x.hu/mediawiki/index.php?title=System-modeling&action=history

Useful WIKI-articles in general:

• Keywords and basic information (incl. further keywords having a hyperlink for an other WIKIPEDIA-article):
  • https://en.wikipedia.org/wiki/Systems_modeling
  • https://en.wikipedia.org/wiki/Model
  • https://en.wikipedia.org/wiki/System
  • https://en.wikipedia.org/wiki/Principia_Ethica
  • ..
• Relevant IT-keywords:
  • https://en.wikipedia.org/wiki/Knowledge_representation_and_reasoning
  • https://en.wikipedia.org/wiki/Neural_network
  • https://en.wikipedia.org/wiki/Fuzzy_logic
  • https://en.wikipedia.org/wiki/Regression_analysis
  • https://en.wikipedia.org/wiki/Expert_system
  • Similarity analyses: https://miau.my-x.hu/miau/196/My-X%20Team_A5%20fuzet_EN_jav.pdf
  • ...

Parallel articles in MIAU-WIKI:

• https://miau.my-x.hu/mediawiki/index.php/BPROF_Thesis1
• https://miau.my-x.hu/mediawiki/index.php/BPROF_Thesis_Structure
• ...

Recommended literature:

• Worth reading: http://www.kevius.com/kazohinia/
• ...

Evaluation of projects: https://miau.my-x.hu/bprof/2023/lectureless_education_evaluation_sheet.xlsx

Advanced levels

• Critical aspects of the potential star method: https://miau.my-x.hu/miau/297/AREA-BASED-ANTI-DISCRIMINATION-MODELS.xlsx
• Alternative knowledge representations in case of balanced inputs: https://miau.my-x.hu/miau/296/joker2_for_biological_systems.docx
• Lembas-bread-mathematics/economics: https://miau.my-x.hu/miau2009/index_tki.php3?_filterText0=*lembas (c.f. https://miau.my-x.hu/myx-free/index.php3?x=e091)
• Mathematics of the sustainability:
  • http://miau.my-x.hu/miau/101/mta_en.doc
  • https://miau.my-x.hu/miau2009/index.php3?x=e0&string=operationalism.of.s
• Robot-deity: http://miau.my-x.hu/miau/197/robot_deity.doc
• Mathematical backgrounds of the OAM-based thinking: https://miau.my-x.hu/miau/296/oam_max_selections.xlsx (c.f. complete sub-matrix)
  • https://communities.sas.com/t5/SAS-Communities-Library/Finding-a-complete-sub-matrix-aka-finding-maximal-bicliques/ta-p/285383

CONCLUSIONS: https://miau.my-x.hu/miau/297/modelling_challenges_on_the_field_of_IT_security_based_on_AI.docx

Gamification phase

1. game

• The first phase of the education can be seen as closed: System-modeling – Miau Wiki (my-x.hu) = https://miau.my-x.hu/mediawiki/index.php/System-modeling
• The next phase is a kind of gamified phase where the Students can ask the lecturers like a chatbot (c.f. chatGPT).
• The competence of asking is relevant because IT-experts have to be able to clarify e.g., the ways how their customers/partners think about the problems needig solutions.
• The chatGPT is still not capable of delivering real solutions to real problems: c.f.
  • https://miau.my-x.hu/miau/298/ChatGPT-food-2.pdf + https://miau.my-x.hu/miau/298/ChatGPT-food.pdf
  • https://miau.my-x.hu/miau/297/Chat-GeePeeTee_vs_Pratchett-G-Pete_nr1.docx
• Therefore human experts have to play the role of the chatbots here and now.
• The first "game" will be presented in a way where we choose (quasi randomized) one of (y)our problems/solutions: e.g., System-modeling – Miau Wiki (my-x.hu) = https://miau.my-x.hu/mediawiki/index.php/System-modeling#Detecting_Vehicle_Malfunctions_using_Acoustic_Data_and_AI
• The further steps can be followed from now on even here: https://miau.my-x.hu/mediawiki/index.php/System-modeling#Gamification_phase
• Please, follow the game and please, be active (play with us via emails:-)!

Simulated conversation (where you have to be capable of playing both the role of the Student and the role of the "Chatbot":

• Student#1:
  • There are data available about dynamic acustic characteristics concerning bearings: e.g., https://miau.my-x.hu/miau/280/degradation_path_01.xlsx
  • There are models available how to analyse them: e.g., https://miau.my-x.hu/miau2009/index.php3?x=e0&string=bearing.wear
  • Please, deliver an alternative analysis based on the same data for the same question/problem!
• "Chatbot"#1:
  • Sure, I will deliver you a parallel model.
  • Here you go: https://miau.my-x.hu/miau/299/bearing_abcdef.xlsx
    • The short descriptions can be read in the XLSX-file and here (see chapter "micro-project"): https://miau.my-x.hu/mediawiki/index.php/System-modeling#Detecting_Vehicle_Malfunctions_using_Acoustic_Data_and_AI

• Student#2:
• Please, help me to interpret your solution!
• Why your solution can be seen as a parallel solution?
• "Chatbot"#2:
• You have defined a dataset and a solution (see your own question before).
• I have calculated a new solution based on the same data (as you asked me) and for the same analytical goal (as you asked me).

• Student#3:
  • What is the common goal of the modelling in my documents and in your solution?
• "Chatbot"#3:
• The common goal/question/problem is:
• How to derive an OAM-oriented models (an estimation-sets)
• for different phases of different bearnings (as objects)
• based on different (in the basic documentations pre-definied) acoustic attributes
• in order to calculate a time-value (c.f. forecasting value) needed for a bearing to achieve a given level of noises.

#1-2-3 can be seen as a kind of initializing step. From now on (#4-5-6-7-8-...), real Students can formulate own questions:

• Student#4:
  • What do you mean about OAM-oriented models?
• "Chatbot"#4:
  • OAM = object-attribute-matrix is the structural core of the modelling here and now.
  • In our case:
    • objects are the different bearnings and their life-periodes/intervals/units
    • attributes are different characteristics of the measured noises (Xi) and the time needed to achieve a given noise-level
  • There are two types of attributes:
  • X-attributes: so-called independent variables
  • Y-attribute(s): the time needed to achieve a given noise-level, as the dependent variable
  • The Xi-attributes must have directions: based on
    • the-more-the-more and/or
    • the more-the-less principle (c.f. ceteris paribus expectations).
  • Theoretically, each problem may be transformed into (different) OAMs! (c.f. GPS = general problem solving)

• Student#5:
  • What means the expression of ceteri paribus?
• "Chatbot"#5:
  • Ceteris paribus does mean Ceteris paribus or caeteris paribus ( New Latin: [ˈse.tɛ.ris ˈpa.ri.bus]) is a Latin phrase meaning "other things equal"; English translations of the phrase include " all other things being equal " or " other things held constant " or " all else unchanged ". Ceteris paribus - Wikipedia (en.wikipedia.org/wiki/Ceteris_paribus)
  • In case of system modelling challenges, the expression of ceteris paribus highlights that between the attributes (Xi and/or Y) the relationships should always be checked, controlled, monitored, ruled, influenced in order to be capable of understanding complex knowledge representations forms (like neural networks, staircase functions, fuzzy systems, etc.).

• Student#6:
  • What is a staircase function?
• "Chatbot"#6:
  • A staircase function is a more complex knowledge representation than a regression model where an attribute has only one single parameter ("a") (c.f. y=a*x+b) - it means instead of "a" in a regression function, a staircase function is using a function where the X axis is the set of the ranks of the well-known input-values concerning the observed attribute and the Y-axis is the parameter value for each ranking level where these parameter-values may be substituted through the same value in case of more input levels.

• Student#7:
  • Why exactly these objects (bearings*time) are predefined?
• "Chatbot"#7:
  • The object-building is mostly an arbitrary process. The modell developer has to ensure defnining as many objects as possible.
  • There are data about just a few bearings.
  • Therefore, the bearing's life-cycle shouls/can/must be divided into time-intervals in order to have more objects concerning one single bearing.

• Student#8:
• "Chatbot"#8:

2. game

Please, choose a new sub-chapter: https://miau.my-x.hu/mediawiki/index.php/System-modeling#Personalized_tasks.2Fwiki-articles_with_system_modeling_challenges
And please, create a new conversation!