Cognitive computing

Source: Wikipedia, the free encyclopedia.

Cognitive computing refers to

dialog and narrative generation, among other technologies.[1][2]

Definition

At present, there is no widely agreed upon definition for cognitive computing in either

academia or industry.[1][3][4]

In general, the term cognitive computing has been used to refer to new hardware and/or software that

reasons, and responds to stimulus. Cognitive computing applications link data analysis and adaptive page displays (AUI) to adjust content for a particular type of audience. As such, cognitive computing hardware and applications strive to be more affective
and more influential by design.

Basic scheme of a cognitive system. With sensors, such as keyboards, touchscreens, cameras, microphones or temperature sensors, signals from the real world environment can be detected. For perception, these signals are recognised by the cognition of the cognitive system and converted into digital information. This information can be documented and is processed. The result of deliberation can also be documented and is used to control and execute an action in the real world environment with the help of actuators, such as engines, loudspeakers, displays or air conditioners for example.

The term "cognitive system" also applies to any artificial construct able to perform a cognitive process where a cognitive process is the transformation of data, information, knowledge, or wisdom to a new level in the

MRI
scan may achieve a higher success rate than a human doctor. This system is certainly a cognitive system but is not artificially intelligent.

Cognitive systems may be engineered to feed on dynamic data in real-time, or near real-time,

unstructured digital information, as well as sensory inputs (visual, gestural, auditory, or sensor-provided).[13]

Cognitive analytics

Cognitive computing-branded technology platforms typically specialize in the processing and analysis of large, unstructured datasets.[14]

Applications

Education
Even if cognitive computing can not take the place of teachers, it can still be a heavy driving force in the education of students. Cognitive computing being used in the classroom is applied by essentially having an assistant that is personalized for each individual student. This cognitive assistant can relieve the stress that teachers face while teaching students, while also enhancing the student's learning experience over all.
tutors, students will not have to face their uneasiness and can gain the confidence to learn and do well in the classroom.[16]
 While a student is in class with their personalized assistant, this assistant can develop various techniques, like creating lesson plans, to tailor and aid the student and their needs.
Healthcare
Numerous tech companies are in the process of developing technology that involves cognitive computing that can be used in the medical field. The ability to classify and identify is one of the main goals of these cognitive devices.[17] This trait can be very helpful in the study of identifying carcinogens. This cognitive system that can detect would be able to assist the examiner in interpreting countless numbers of documents in a lesser amount of time than if they did not use Cognitive Computer technology. This technology can also evaluate information about the patient, looking through every medical record in depth, searching for indications that can be the source of their problems.
Commerce
Together with Artificial Intelligence, it has been used in warehouse management systems  to collect, store, organize and analyze all related supplier data. All these aims at improving efficiency, enabling faster decision-making, monitoring inventory and fraud detection[18]
Human Cognitive Augmentation
In situations where humans are using or working collaboratively with cognitive systems, called a human/cog ensemble, results achieved by the ensemble are superior to results obtainable by the human working alone. Therefore, the human is cognitively augmented.[19][20][21] In cases where the human/cog ensemble achieves results at, or superior to, the level of a human expert then the ensemble has achieved synthetic expertise.[22] In a human/cog ensemble, the "cog" is a cognitive system employing virtually any kind of cognitive computing technology.
Other use cases

Industry work

Cognitive computing in conjunction with

decision making
.

The powers of cognitive computing and artificial intelligence hold the potential to affect almost every task that humans are capable of performing. This can negatively affect employment for humans, as there would be no such need for human labor anymore. It would also increase the

inequality of wealth; the people at the head of the cognitive computing industry would grow significantly richer, while workers without ongoing, reliable employment would become less well off.[23]

The more industries start to use cognitive computing, the more difficult it will be for humans to compete.[23] Increased use of the technology will also increase the amount of work that AI-driven robots and machines can perform. Only extraordinarily talented, capable and motivated humans would be able to keep up with the machines. The influence of competitive individuals in conjunction with artificial intelligence/cognitive computing with has the potential to change the course of humankind.[24]

See also

References

  1. ^ a b Kelly III, Dr. John (2015). "Computing, cognition and the future of knowing" (PDF). IBM Research: Cognitive Computing. IBM Corporation. Retrieved February 9, 2016.
  2. ^ Augmented intelligence, helping humans make smarter decisions. Hewlett Packard Enterprise. http://h20195.www2.hpe.com/V2/GetPDF.aspx/4AA6-4478ENW.pdf Archived April 27, 2016, at the Wayback Machine
  3. ^ "Cognitive Computing". April 27, 2014. Archived from the original on July 11, 2019. Retrieved April 18, 2016.
  4. S2CID 15229045
    .
  5. ^ Terdiman, Daniel (2014) .IBM's TrueNorth processor mimics the human brain.http://www.cnet.com/news/ibms-truenorth-processor-mimics-the-human-brain/
  6. ^ Knight, Shawn (2011). IBM unveils cognitive computing chips that mimic human brain TechSpot: August 18, 2011, 12:00 PM
  7. ^ Hamill, Jasper (2013). Cognitive computing: IBM unveils software for its brain-like SyNAPSE chips The Register: August 8, 2013
  8. S2CID 20681733
    .
  9. ^ Dr. Lars Ludwig (2013). Extended Artificial Memory. Toward an integral cognitive theory of memory and technology (pdf) (Thesis). Technical University of Kaiserslautern. Retrieved February 7, 2017.
  10. ^ "Automate Complex Workflows Using Tactical Cognitive Computing: Coseer". thesiliconreview.com. Retrieved July 31, 2017.
  11. ISBN 978-0367859459
    .
  12. S2CID 1831060. Archived from the original
    (PDF) on February 28, 2020.
  13. ^ Deanfelis, Stephen (2014). Will 2014 Be the Year You Fall in Love With cognitive computing? Wired: 2014-04-21
  14. ^ "Cognitive analytics - The three-minute guide" (PDF). 2014. Retrieved August 18, 2017.
  15. ^ Sears, Alec (April 14, 2018). "The Role Of Artificial Intelligence In The Classroom". ElearningIndustry. Retrieved April 11, 2019.
  16. ^ Coccoli, Mauro; Maresca, Paolo; Stanganelli, Lidia (May 21, 2016). "Cognitive computing in education". Journal of e-Learning and Knowledge Society. 12 (2).
  17. ProQuest 2176184267
    .
  18. ^ "Smart Procurement Technologies for the Construction Sector". publication.sipmm.edu.sg. October 25, 2021. Retrieved March 2, 2022.
  19. ISBN 978-0367859459
    .
  20. S2CID 195891648
    .
  21. S2CID 51603737
    .
  22. S2CID 220519330
    .
  23. ^
    S2CID 152199271
    .
  24. JSTOR 10.7864/j.ctt1vjqp2g.[page needed
    ]

Further reading
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