Difference between revisions of "User:Shawndouglas/sandbox/sublevel8"

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| type      = notice
| type      = notice
| style    = width: 960px;
| style    = width: 960px;
| text      = This is sublevel1 of my sandbox, where I play with features and test MediaWiki code. If you wish to leave a comment for me, please see [[User_talk:Shawndouglas|my discussion page]] instead.<p></p>
| text      = This is sublevel8 of my sandbox, where I play with features and test MediaWiki code. If you wish to leave a comment for me, please see [[User_talk:Shawndouglas|my discussion page]] instead.<p></p>
}}
}}


==Sandbox begins below==
==Sandbox begins below==
Material testing can focus on specific industries (e.g., automotive, construction, and pharmaceutical), products (e.g., car seats, asphalt, and medical devices), or raw materials (e.g., steel, gravel, and zirconia ceramic).


{{Infobox journal article
About chemical testing of raw materials https://a2la.org/accreditation/chemical-testing/
|name        =
|image        =
|alt          = <!-- Alternative text for images -->
|caption      =
|title_full  = Approaches to Medical Decision-Making Based on Big Clinical Data
|journal      = ''Journal of Healthcare Engineering''
|authors      = Malykh, V.L.; Rudetskiy, S.V.
|affiliations = Ailamazyan Program Systems Institute of RAS
|contact      = Email: mvl at interin dot ru
|editors      =
|pub_year    = 2018
|vol_iss      = '''2018'''
|pages        = 3917659
|doi          = [http://10.1155/2018/3917659 10.1155/2018/3917659]
|issn        = 2040-2309
|license      = [http://creativecommons.org/licenses/by/4.0/ Creative Commons Attribution 4.0 International]
|website      = [https://www.hindawi.com/journals/jhe/2018/3917659/ https://www.hindawi.com/journals/jhe/2018/3917659/]
|download    = [http://downloads.hindawi.com/journals/jhe/2018/3917659.pdf http://downloads.hindawi.com/journals/jhe/2018/3917659.pdf] (PDF)
}}
{{ombox
| type      = content
| style    = width: 500px;
| text      = This article should not be considered complete until this message box has been removed. This is a work in progress.
}}
==Abstract==
The paper discusses different approaches to building a [[clinical decision support system]] based on big data. The authors sought to abstain from any data reduction and apply universal teaching and big data processing methods independent of disease classification standards. The paper assesses and compares the accuracy of recommendations among three options: case-based reasoning, simple single-layer neural network, and probabilistic neural network. Further, the paper substantiates the assumption regarding the most efficient approach to solving the specified problem.
 
==Introduction==
Providing support to clinical decision-making is one of the most urgent issues in healthcare automation. It has been repeatedly noted in different articles, reports, and forum discussions<ref name="Medsoft2016">{{cite web |url=http://www.armit.ru/medsoft/2016/conference/prog/ |title=Presentations of the 12th International Forum "MedSoft-2016" |publisher=Association for the Development of Medical Information Technologies |date=2016}}</ref> both in Russia and abroad that medical information system (MIS) introduction requires a considerable extra effort from users/doctors in the first place—to enter primary data into the system. Naturally, doctors expect practical intelligent outcomes from big clinical data accumulated by modern MISs. Handler ''et al.''<ref name="HandlerGartner07">{{cite web |url=https://www.gartner.com/doc/508592/gartners--criteria-enterprise-cpr |title=Gartner's 2007 Criteria for the Enterprise CPR |author=Handler, T.J.; Hieb, B.R. |publisher=Gartner, Inc |date=2007}}</ref> present the operating paradigm of fifth generation MISs, referred to as “MIS as Mentor.” Malykh ''et al.''<ref name="MalykhActive16">{{cite journal |title=Active MIS |journal=Information Technologies for the Physician |author=Malykh, V.L.; Rudetskiy, S.V.; Hatkevich, M.I. |volume=2016 |issue=6 |year=2016}}</ref> adds one more qualitative characteristic to the above paradigm—“MIS as automated mentor.”
 
<blockquote>It is advisable to abandon the practice of active user dialogs typical of expert systems, involving requests for data that the system considers missing from the user, and substitute the dialog with an automated nonintrusive algorithm that draws its own logical conclusions and generates recommendations in a completely automated manner based on available data, without involving the user in the process. The user may either accept or ignore the system’s prompts and recommendations; however, they will not provoke rejection in users if delivered automatically without requiring a dialog with the system.<ref name="MalykhActive16" /></blockquote>
 
To provide a brief qualitative description of this increasing subjectivity of MISs, we have proposed the new term “active MIS” that emphasizes a certain degree of independence from users or subjectivity of the cyber system. Kohane<ref name="KohaneTheTwin09">{{cite journal |title=The twin questions of personalized medicine: who are you and whom do you most resemble? |journal=Genome Medicine |author=Kohane, I.S. |volume=1 |issue=1 |page=4 |year=2009 |doi=10.1186/gm4 |pmid=19348691 |pmc=PMC2651581}}</ref> presents the most “balanced” definition of personalized medicine: “personalized medicine is the practice of clinical decision-making such that the decisions made maximize the outcomes that the patient most cares about and minimize those that the patient fears the most, on the basis of as much knowledge about the individual’s state as is available.” This perception of personal medicine is focused on clinical decision-making and once again exhibits the urgency and importance of scientific research in the area. Therefore, building an automated active mentor-type system that provides recommendations regarding treatment and diagnostic activities to the doctor is an urgent practical task.
 
Butko and Olshansky<ref name="ButkoNew90">{{cite journal |title=New Decision Support Systems in Foreign Healthcare |journal=Automation and Remote Control |author=Butko, S.N.; Olshansky, V.K. |volume=51 |year=1990}}</ref> and Kotov<ref name="KotovNew04">{{cite book |chapter=New Mathematical Approaches to Medical Diagnostics |title=Editorial URSS |author=Kotov, Y.B. |year=2004}}</ref> provide a retrospective overview of approaches to building clinical decision support systems. The applied approaches were restricted in many respects by the abilities of computers at that time. Accordingly, there was no such problem as processing big medical data. Technologies have evolved to the point where big medical data (both on individuals and the population in general) collection and accumulation is finally feasible. At the same time, big data processing and intelligent system learning methods were evolving as well. Along with “deep learning,” the term “deep patient”<ref name="MiottoDeep16">{{cite journal |title=Deep Patient: An Unsupervised Representation to Predict the Future of Patients from the Electronic Health Records |journal=Scientific Reports |author=Miotto, R.; Li, L.; Kidd, B.A. et al. |volume=6 |page=26094 |year=2016 |doi=10.1038/srep26094}}</ref> was coined, meaning the opportunity to extract increasingly more complete, deep, and valuable [[information]] about patients from big clinical data using deep learning methods.
 
Malykh ''et al.''<ref name="MalykhCase15">{{cite journal |title=Case-based reasoning in clinical processes using clinical data banks |journal=Proceedings from the 2015 International Conference on Biomedical Engineering and Computational Technologies |author=Malykh, V.L.; Belyshev, D.V. |pages=211-216 |year=2015 |doi=10.1109/SIBIRCON.2015.7361885}}</ref> mention the possibility of creating national-scale clinical data banks. Herrett ''et al.''<ref name="HerrettData15">{{cite journal |title=Data Resource Profile: Clinical Practice Research Datalink (CPRD) |journal=International Journal of Epidemiology |author=Herrett, E.; Gallagher, A.M.; Bhaskaran, K. et al. |volume=44 |issue=3 |pages=827-36 |year=2015 |doi=10.1093/ije/dyv098 |pmid=26050254 |pmc=PMC4521131}}</ref> provide an example of a database (DB) containing anonymous medical records on primary healthcare services provided. This DB was created by a joint effort of 674 general practitioners and covers over 11.3 million patients in Great Britain.
 
Decision-making in [[hospital]]s has evolved from being opinion-based to being based on sound scientific evidence. This decision-making is recognized as evidence-based practice. Perpetual publication of new evidence combined with the demands of everyday practice makes it difficult for health professionals to keep up to date.M<ref name="RotterClinical10">{{cite journal |title=Clinical pathways: Effects on professional practice, patient outcomes, length of stay and hospital costs |journal=Cochrane Database of Systematic Reviews |author=Rotter, T.; Kinsman, L.; James, E. et al. |issue=3 |page=CD006632 |year=2010 |doi=10.1002/14651858.CD006632.pub2 |pmid=20238347}}</ref>
 
A large number of publications are devoted to clinical decision support systems (DSSs), including publications in specialized scientific journals (''Artificial Intelligence in Medicine'', ''BMC Medical Informatics and Decision Making'', ''International Journal of Medical Informatics'', ''Medical Decision Making'', etc.). The work does not aim to give an overview of different approaches to making of decision support systems, referring readers to the original reviews.<ref name="BernerClinical09">{{cite web |url=https://healthit.ahrq.gov/health-it-tools-and-resources/health-it-bibliography/clinical-decision-support-systems-cdss/clinic-0 |title=Clinical Decision Support Systems: State of the Art |author=Berner, E.S. |publisher=Agency for Healthcare Research and Quality |date=June 2009}}</ref><ref name="EfimenkoIntellingent17">{{cite journal |title=Intelligent decision support systems in medicine: State of the art and beyond |journal=Proceedings from Open Semantic Technologies for Intelligent Systems OSTIS-2017 |author=Efimenko, I.V.; Khoroshevsky, V.F. |pages=251-260 |year=2017 |url=https://libeldoc.bsuir.by/handle/123456789/12259}}</ref><ref name="CDSSWikipedia">{{cite web |url=https://en.wikipedia.org/wiki/Clinical_decision_support_system |title=Clinical decision support system |work=Wikipedia}}</ref> We can give a few definitions for decision support system from Wikipedia: “Clinical Decision Support systems link health observations with health knowledge to influence health choices by clinicians for improved health care” and “active knowledge systems, which use two or more items of patient data to generate case-specific advice.” No one doubts the feasibility of such systems and that they have a positive impact on professional practice, patient outcomes, length of hospital stay, and hospital costs. The main problem is to find effective approaches to building such systems.
 
==References==
{{Reflist|colwidth=30em}}


==Notes==
Material testing domains:
This presentation is faithful to the original, with only a few minor changes to presentation. In some cases important information was missing from the references, and that information was added.
* Aerospace
**Adhesives
**Composites
**Fasteners
**Paints and primers
**Sealants
**Etc.
*Automotive
**Adhesives
**Coatings
**Foams
**Lighting and high-visibility solutions
**Plastics
**Seating
**Etc.
*Carbon
**Activated carbon
**Coal tar
**Etc.
*Coatings, linings, and sealants
**Ceramic coatings
**Metal coatings
**Pipe linings
**Thermal sprays
**Etc.
*Construction and engineering
**Asphalt
**Brick and tile
**Fasteners
**Fenestration and glazing products (i.e., windows, doors, glass)
**Geosynthetics
**Plumbing
**Soil
**Etc.
* Insulation, foam, and composites
**Fiberglass
**Flexible and laminate urethane foam composite
**Polyester resins
**Etc.
*Lubricants and thickeners
**Metallic stearates
**Powdered metal
**Pre-formed grease thickeners
**Etc.
* Medical devices
**Ceramics
**Metals
**Screws
**Etc.
*Metals
**Aluminum
**Castings
**Copper
**Rebar
**Steel
**Tubing
**Welds
**Zinc
**Etc.
* Packaging and labeling
**Cardboard
**Label adhesives
**Pharmaceutical packaging
**Sterile barrier materials
**Etc.
* Paints and oils
**Interior/Exterior paints
**Organic coatings
**Paint on parts
**Transformer oil
**Etc.
* Paper
**Cellulose paper tape
**Crepe paper and tubes
**Kraft paper
**Pressboard
**Etc.
*Polymers and plastics
**Biopolymers
**Condoms and gloves
**Payment cards
**O-rings
**[https://www.sciencedirect.com/science/article/pii/S1751616121005105 Silicone-based biological tissue mimics]
**Thermoplastic resins
**Etc.
* Raw materials
**Food and beverage ingredients
**Elemental material
**Pharmaceutical ingredients
**Etc.
* Reference materials
**Cannabinoids
**Coals and cokes
**Elemental gasses
**Isotope reference material
**Organic analytical reference material
**Pesticides
**Etc.
*Rubbers
**Bump stops
**Gloves
**Neoprene
**Silicone
**Tires
**Etc.
*Electronics and energy devices
**Batteries
**Semiconductors
**Solar panels
**Transformers
**Etc.
*Textiles
**Carpet
**Drapery
**Non-woven fabrics
**Upholstery
**Etc.
*Wood
**Dowel
**Flooring
**Lumber
**Medium-density fibreboard (MDF)
**Etc.


<!--Place all category tags here-->
Test method developers:
[[Category:LIMSwiki journal articles (added in 2018)‎]]
* Aerospace Industries Association (AIA/NAS/NASM)
[[Category:LIMSwiki journal articles (all)‎]]
* American Architectural Manufacturers Association (AAMA)
[[Category:LIMSwiki journal articles on big data]]
* American Association of State Highway and Transportation Officials (AASHTO)
[[Category:LIMSwiki journal articles on health informatics‎‎]]
* American Association of Textile Chemists and Colorists (AATCC)
* American Institute of Timber Construction (AITC)
* American National Standards Institute (ANSI)
* American Petroleum Institute (API)
* American Society of Mechanical Engineers (ASME)
* American Welding Society (AWS)
* American Wood Protection Association (AWPA)
* AOAC International (Association of Official Agricultural Chemists; AOAC)
* ASTM International (ASTM)
* Automakers (Ford, GM, Honda, PACCAR, Peugeot, Subaru, Tesla, Toyota, Volvo, etc.)
* Canadian Standards Association (CSA)
* Chemical Fabrics & Film Association (CFFA)
* Consumer Product Safety Commission (CPSC)
* Deutsches Institut für Normung (DIN)
* Electronic Components Industry Association (ECIA/EIA)
* European Telecommunications Standards Institute (ETSI)
* Federal Motor Vehicle Safety Standard (FMVSS)
* FM Approvals (FM)
* GE Aerospace (GE)
* Government and military (MIL, [https://fedspecs.gsa.gov/s/federal-standards Fed], Consumer Product Safety Commission, CSFA, EPA, FDA, MMM, NAVSEA, United Nations Economic Commission for Europe, etc.)
* Industrial Fasteners Institute (IFI)
* Institute of Electrical and Electronics Engineers (IEEE)
* International Atomic Energy Agency (IAEA) ([https://www.iaea.org/topics/material-analysis 1], [https://www.iaea.org/topics/other-non-destructive-testing 2], [https://www.iaea.org/topics/materials 3])
* International Code Council (ICC-ES)
* International Electrotechnical Commission (IEC)
* International Maritime Organization (IMO)
* International Organization for Standardization (ISO)
* International Safe Transit Association (ISTA)
* IPC International (Institute for Interconnecting and Packaging Electronic Circuits; IPC)
* Japanese Standards Association (JAS/JIS)
* NACE International (National Association of Corrosion Engineers; NACE)
* National Fire Protection Association (NFPA)
* [https://www.dot.ny.gov/divisions/engineering/structures/manuals/scm/repository/SCM_4th_Edition_1-2018.pdf New York State Steel Construction Manual (NNSSCM/SCM)]
* NSF International (National Sanitation Foundation; NSF)
* Pressure Sensitive Tape Council (PSTC)
* Radio Technical Commission for Aeronautics (RTCA)
* Suppliers of Advanced Composite Materials Association (SACMA)
* SAE International (SAE/AMS/AS)
* TAPPI (Technical Association of the Pulp and Paper Industry; TAPPI)
* Truss Plate Institute (TPI)
* UL Standards and Engagement (UL)
* United States Pharmacopeia Convention (USP)

Latest revision as of 18:07, 20 September 2023

Sandbox begins below

Material testing can focus on specific industries (e.g., automotive, construction, and pharmaceutical), products (e.g., car seats, asphalt, and medical devices), or raw materials (e.g., steel, gravel, and zirconia ceramic).

About chemical testing of raw materials https://a2la.org/accreditation/chemical-testing/

Material testing domains:

  • Aerospace
    • Adhesives
    • Composites
    • Fasteners
    • Paints and primers
    • Sealants
    • Etc.
  • Automotive
    • Adhesives
    • Coatings
    • Foams
    • Lighting and high-visibility solutions
    • Plastics
    • Seating
    • Etc.
  • Carbon
    • Activated carbon
    • Coal tar
    • Etc.
  • Coatings, linings, and sealants
    • Ceramic coatings
    • Metal coatings
    • Pipe linings
    • Thermal sprays
    • Etc.
  • Construction and engineering
    • Asphalt
    • Brick and tile
    • Fasteners
    • Fenestration and glazing products (i.e., windows, doors, glass)
    • Geosynthetics
    • Plumbing
    • Soil
    • Etc.
  • Insulation, foam, and composites
    • Fiberglass
    • Flexible and laminate urethane foam composite
    • Polyester resins
    • Etc.
  • Lubricants and thickeners
    • Metallic stearates
    • Powdered metal
    • Pre-formed grease thickeners
    • Etc.
  • Medical devices
    • Ceramics
    • Metals
    • Screws
    • Etc.
  • Metals
    • Aluminum
    • Castings
    • Copper
    • Rebar
    • Steel
    • Tubing
    • Welds
    • Zinc
    • Etc.
  • Packaging and labeling
    • Cardboard
    • Label adhesives
    • Pharmaceutical packaging
    • Sterile barrier materials
    • Etc.
  • Paints and oils
    • Interior/Exterior paints
    • Organic coatings
    • Paint on parts
    • Transformer oil
    • Etc.
  • Paper
    • Cellulose paper tape
    • Crepe paper and tubes
    • Kraft paper
    • Pressboard
    • Etc.
  • Polymers and plastics
  • Raw materials
    • Food and beverage ingredients
    • Elemental material
    • Pharmaceutical ingredients
    • Etc.
  • Reference materials
    • Cannabinoids
    • Coals and cokes
    • Elemental gasses
    • Isotope reference material
    • Organic analytical reference material
    • Pesticides
    • Etc.
  • Rubbers
    • Bump stops
    • Gloves
    • Neoprene
    • Silicone
    • Tires
    • Etc.
  • Electronics and energy devices
    • Batteries
    • Semiconductors
    • Solar panels
    • Transformers
    • Etc.
  • Textiles
    • Carpet
    • Drapery
    • Non-woven fabrics
    • Upholstery
    • Etc.
  • Wood
    • Dowel
    • Flooring
    • Lumber
    • Medium-density fibreboard (MDF)
    • Etc.

Test method developers:

  • Aerospace Industries Association (AIA/NAS/NASM)
  • American Architectural Manufacturers Association (AAMA)
  • American Association of State Highway and Transportation Officials (AASHTO)
  • American Association of Textile Chemists and Colorists (AATCC)
  • American Institute of Timber Construction (AITC)
  • American National Standards Institute (ANSI)
  • American Petroleum Institute (API)
  • American Society of Mechanical Engineers (ASME)
  • American Welding Society (AWS)
  • American Wood Protection Association (AWPA)
  • AOAC International (Association of Official Agricultural Chemists; AOAC)
  • ASTM International (ASTM)
  • Automakers (Ford, GM, Honda, PACCAR, Peugeot, Subaru, Tesla, Toyota, Volvo, etc.)
  • Canadian Standards Association (CSA)
  • Chemical Fabrics & Film Association (CFFA)
  • Consumer Product Safety Commission (CPSC)
  • Deutsches Institut für Normung (DIN)
  • Electronic Components Industry Association (ECIA/EIA)
  • European Telecommunications Standards Institute (ETSI)
  • Federal Motor Vehicle Safety Standard (FMVSS)
  • FM Approvals (FM)
  • GE Aerospace (GE)
  • Government and military (MIL, Fed, Consumer Product Safety Commission, CSFA, EPA, FDA, MMM, NAVSEA, United Nations Economic Commission for Europe, etc.)
  • Industrial Fasteners Institute (IFI)
  • Institute of Electrical and Electronics Engineers (IEEE)
  • International Atomic Energy Agency (IAEA) (1, 2, 3)
  • International Code Council (ICC-ES)
  • International Electrotechnical Commission (IEC)
  • International Maritime Organization (IMO)
  • International Organization for Standardization (ISO)
  • International Safe Transit Association (ISTA)
  • IPC International (Institute for Interconnecting and Packaging Electronic Circuits; IPC)
  • Japanese Standards Association (JAS/JIS)
  • NACE International (National Association of Corrosion Engineers; NACE)
  • National Fire Protection Association (NFPA)
  • New York State Steel Construction Manual (NNSSCM/SCM)
  • NSF International (National Sanitation Foundation; NSF)
  • Pressure Sensitive Tape Council (PSTC)
  • Radio Technical Commission for Aeronautics (RTCA)
  • Suppliers of Advanced Composite Materials Association (SACMA)
  • SAE International (SAE/AMS/AS)
  • TAPPI (Technical Association of the Pulp and Paper Industry; TAPPI)
  • Truss Plate Institute (TPI)
  • UL Standards and Engagement (UL)
  • United States Pharmacopeia Convention (USP)