A Simplified Approach for the Annual and Spatial Evaluation of the Comfort Classes of Daylight Glare Using Vertical Illuminances

Giovannini, Luigi; Favoino, Fabio; Verso, Valerio Roberto Maria Lo; Pellegrino, Anna; Serra, Valentina

doi:10.3390/buildings8120171

Cited by 22 publications

(16 citation statements)

References 25 publications

(28 reference statements)

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“…Harrold and others proposed the concepts and formulas of Visual Comfort Probability (VCP) [26]; Wienold & Christoffersen [27] developed Daylight Glare Probability (DGP) calculated by glare in vertical illumination. Hirning [28] validated previous glare measurements and introduced the Unified Glare Probability (UGP) as a predictor of glare discomfort, by using a combination of natural lighting mapping and user questionnaires [29]. Several studies on visual comfort involving user questionnaires have been conducted, such as by Chinazzo, which concluded that no significant differences in evaluation of visual perception were found between the moderate and high levels of daylight, especially in terms of visual comfort [30].…”

Section: Literature Reviewmentioning

confidence: 97%

An Alternative Approach in Assessing Visual Comfort Based on Students' Perceptions in Daylit Classrooms in the Tropics

Idrus¹,

Rahim²,

Hamzah³

et al. 2020

cea

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Daylight is the best lighting source for classrooms that are mostly used during the daytime. Effectiveness and productivity can be achieved if visual comfort meets the recommendations set. This study aims to develop an alternative visual comfort assessments method based on students' perceptions in the classroom with daylight. The study was carried out by collecting students' perceptions and daylight illuminance data from 25 classrooms located in seven schools in Makassar, Indonesia. A total of 737 students responded to this study. This research was conducted from morning to noon in each school. The results showed that the majority of students, as many as 57.5%, felt that the level of daylight was "Perceptible", and only 6.5% felt it was "Intolerable". The results of daylight intensity measurements of 25 classes showed that only 28% of classes meet the minimum standard of the Indonesian National Standard (SNI), and as many as 82% of classes do not meet the standard. Using a new method based on student perception, it was concluded that as many as 28% of classes were categorized as "Acceptable", as many as 48% of classes were categorized as "Preferred," and around 24% were not included in either category. This shows that there are classes that are not in accordance with recommendations, but are still acceptable according to students' perceptions. This new assessment method can be an alternative addition for designers to assess the comfort of a room with daylight by users' preferences.

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Section: Literature Reviewmentioning

confidence: 97%

An Alternative Approach in Assessing Visual Comfort Based on Students' Perceptions in Daylit Classrooms in the Tropics

Idrus¹,

Rahim²,

Hamzah³

et al. 2020

cea

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show abstract

“…For the DGPs model, its application enabled performance in the target spaces concerning the large-area sources of glare with no direct sun hitting the eyes, as per Wienolds' consideration [16,20]. Window size greatly influences occupants [50], with the daylight glare simulation study of Giovannini et al [33] finding that the rate of VLT affected glare perception with the amount of vertical illuminance. However, shading device usage resulted in low conditions of light inside occupied spaces; daylight glare was never experienced by the users.…”

Section: Surveyed Datamentioning

confidence: 99%

“…Since the vertical illuminance dominated subjective responses with its contributions to DGPs, the illuminance-based approach was generally applied to evaluate daylight glare concerning the DGPs model. The simulation study of Giovannini et al [33] found that this simplified approach to calculate the daylight glare comfort classes using vertical illuminance had a good correlation with DGP evaluation, and it was less time consuming in practical terms. Thus, it is worthwhile to adopt this model for daylight glare evaluation in post-occupancy survey of buildings, and its usability needs to be explored under the contextual study.…”

Section: Introductionmentioning

confidence: 99%

Determination of the Simplified Daylight Glare Probability (DGPs) Criteria for Daylit Office Spaces in Thailand

2020

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The increasing trend of employing glazed façades to utilize daylight in the buildings has made it necessary to develop measures to avoid excessive sunlight penetration in such daylit spaces. In Thailand, only a few studies have focused on daylight glare, and therefore, applicable criteria are required to fulfill the local preference. This study aimed to determine daylight glare thresholds on the basis of the occupants’ responses. A post-occupancy evaluation with a simplified daylight glare probability (DGPs) model was performed in eight open-plan office spaces located in Bangkok, Thailand. The occupants participated in a survey including a subjective questionnaire; the results showed that the DGPs model performed effectively for glare prediction, with a preference for a lower level than that found in the current references. Statistical analysis helped mark the threshold values for each glare sensation level: imperceptible–perceptible = 0.22; perceptible–disturbing = 0.24; and disturbing–intolerable = 0.26. The findings of this study can be considered as initial evidence for improving the understanding of local occupants’ perspectives and illumination standards, which currently encourage daylight utilization without any specific glare control strategies.

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“…The accuracy of the method was determined through the comparison with DGP values by applying a fault-detection technique. A preliminary paper that describes the study was published by the same Authors (Giovannini et al, 2018). In this paper the results of an expanded study are presented: in this the new simplified approach is tested for a larger number of viewpoints and, for each viewpoint, considering a plurality of view directions.…”

Section: 16mentioning

confidence: 99%

Annual Evaluation of Daylight Discomfort Glare: State of the Art and Description of a New Simplified Approach

Giovannini

Favoino

Verso

et al. 2019

PROCEEDINGS OF the 29th Quadrennial Session of the CIE

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A simplified approach that was developed for annual daylight glare analyses in buildings is presented. The approach enables to classify a whole space in terms of daylight glare comfort classes (imperceptible glare, perceptible glare, disturbing glare and intolerable glare) through the eye vertical illuminance, and it was validated against DGP values. The approach allows a significant reduction of the computation time required for annual glare analyses. Potentials and drawbacks of the simplified method are critically discussed, also with respect to other simplified approaches defined by other authors in the past.

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A Simplified Approach for the Annual and Spatial Evaluation of the Comfort Classes of Daylight Glare Using Vertical Illuminances

Cited by 22 publications

References 25 publications

An Alternative Approach in Assessing Visual Comfort Based on Students' Perceptions in Daylit Classrooms in the Tropics

An Alternative Approach in Assessing Visual Comfort Based on Students' Perceptions in Daylit Classrooms in the Tropics

Determination of the Simplified Daylight Glare Probability (DGPs) Criteria for Daylit Office Spaces in Thailand

Annual Evaluation of Daylight Discomfort Glare: State of the Art and Description of a New Simplified Approach

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