• Title/Summary/Keyword: CX(Co-Experience)

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Conceptual Study on User Experience in HCI: Definition of UX and Introduction of a New Concept of CX (Co-Experience) (사용자 경험에 대한 HCI적 관점에서의 개념적 고찰 사용자 경험의 개념 정의와 공동 경험감 개념의 제안)

  • Moon, Jee-Hyun;Lim, Seong-Taek;Park, Cha-La;Lee, In-Seong;Kim, Jin-Woo
    • Journal of the HCI Society of Korea
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    • v.3 no.1
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    • pp.9-17
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    • 2008
  • The concept of UX(User Experience) has been an important issue both in academic and practical areas in recent years. However, the concept had either been lacking an implicit definition or confused with otherrelated concepts in most cases. In this paper, a conceptual definition of UX and the optimal UX in HCI as well as conditions of it is presented based on John Dewey's pragmatism. Also, due to the current shifts in the technological environment in HCI, it is impossible to fully explain the phenomena by using the current concept of UX as users experience technology not only individually but also socially. Therefore, this paper introduces the concept of users' shared experience, co-experience(CX), and its requisites.

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Thermographic Assessment in Dry Eye Syndrome, Compared with Normal Eyes by Using Thermography (열화상카메라를 이용한 정상안과 건성안의 서모그래피 비교)

  • Park, Chang Won;Lee, Ok Jin;Lee, Seung Won
    • Journal of Korean Ophthalmic Optics Society
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    • v.20 no.2
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    • pp.247-253
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    • 2015
  • Purpose: The purpose of this study was to compare and analyze the ocular surface and the palpebral conjunctiva of categorized subjects, which were divided into normal eye group and dry eye group, by using a thermal camera. Methods: Subjects were 144 eyes of 72 normal university students, who didn't have any corneal disease, abnormal lacrimal ducts, medical records regarding ocular surgeries, or experience of using contact lens. Subjects were divided into two groups, which were normal eye group and dry eye group, based on the results of TBUT, Schirmer I test, and McMonnies test. After categorizing the subjects, the temperature of the subjects' ocular surface and the palpebral conjunctiva were measured and analyzed by using a thermal camera (Cox CX series, Answer co., Korea). Results: In the normal eye group's Central Ar.1, Nasal Ar.2, Temporal Ar.3, Superior Ar.4, Inferior Ar.5, the measured amount of temperature change on each area was $-0.13{\pm}0.08$, $-0.14{\pm}0.08$, $-0.12{\pm}0.08$, $-0.14{\pm}0.08$, $-0.10{\pm}0.09(^{\circ}C/sec)$. The dry eye group's results were $-0.17{\pm}0.08$, $-0.16{\pm}0.07$, $-0.16{\pm}0.08$, $-0.17{\pm}0.09$, $-0.15{\pm}0.08(^{\circ}C/sec)$. When compared with the normal eye group, the values of Ar.1, Ar.3, Ar.5 were significantly different in the dry eye group(p<0.05). The amount of temperature change, which was observed on the palpebral conjunctiva(Ar.1:central, Ar.2: nasal, Ar.3: temporal) of the normal eyes, measured by thermography, was $34.36{\pm}1.12$, $34.17{\pm}1.10$, $34.07{\pm}1.12^{\circ}C$ on each area. Same values taken from the dry eye group was $33.55{\pm}0.94$, $33.43{\pm}0.97$, $33.51{\pm}1.06^{\circ}C$ on each area. The values of Ar.1, taken from the dry eye group, had a significant difference, compared to the values of the normal eye group(p=0.05). Conclusion: The temperature of the ocular surface decreased faster on the dry eyes, compared to the normal eyes. The temperature measured on the palpebral conjunctiva of the dry eyes were also lower than the normal eyes. The temperature changes on the ocular surface, observed with a thermal camera, were objective values to assess the stability of tear films, and might provide useful data for studies related to dry eye syndrome.