امیررضا یعقوبی - دانشکده معماری arch
Amirreza Yaghoobi
Architecture
Thesis Title: The Effect of Geometric Pattern Arising from Natural Light on Users' Perception of Residential Space
Supervisor: Dr. Shahin Heidari
Email: a.r.yaghoobi@ut.ac.ir
Supervisor: Dr. Shahin Heidari
Email: a.r.yaghoobi@ut.ac.ir
Summary of Research
This research aims to investigate the impact of geometric patterns of natural light on users' perception and spatial experience in residential environments. In other words, we aim to understand how changes in the way light enters a space affect people's emotions, perceptions, and ultimately their satisfaction with their living environment.
The main objectives of the research are:
Identifying ideal light patterns
Understanding the core elements of spatial perception and how light affects these elements
Assessing the impact of light quality on visual comfort and spatial experience
Defining an index to measure lighting satisfaction and quality in architectural spaces
Simulating various lighting conditions to more accurately examine the impact of geometric light patterns on user perception
To achieve these objectives, a combination of qualitative and quantitative methods will be used. In the qualitative part, user opinions about different light patterns and their feelings will be examined using interviews and questionnaires. In the quantitative part, experimental and computer simulation methods will be used to more accurately examine the impact of various light parameters on user perception.
The results of this research can help architects, interior designers, and construction industry decision-makers create higher-quality spaces that better meet the needs of users through intelligent lighting design. Additionally, this research can contribute to the development of new standards for evaluating the quality of light in built environments.
By focusing on geometric light patterns and their impact on user perception, this research delves into a new area of research in architectural lighting. Defining a lighting satisfaction index is also one of the innovations of this research, which can be used as a tool for comparing and evaluating the quality of light in different spaces. It is expected that the results of this research will lead to a deeper understanding of the relationship between geometric light patterns and user perception, and will result in recommendations for optimal lighting design in residential spaces. Furthermore, this research can improve people's quality of life by creating spaces with more suitable lighting.
The main objectives of the research are:
Identifying ideal light patterns
Understanding the core elements of spatial perception and how light affects these elements
Assessing the impact of light quality on visual comfort and spatial experience
Defining an index to measure lighting satisfaction and quality in architectural spaces
Simulating various lighting conditions to more accurately examine the impact of geometric light patterns on user perception
To achieve these objectives, a combination of qualitative and quantitative methods will be used. In the qualitative part, user opinions about different light patterns and their feelings will be examined using interviews and questionnaires. In the quantitative part, experimental and computer simulation methods will be used to more accurately examine the impact of various light parameters on user perception.
The results of this research can help architects, interior designers, and construction industry decision-makers create higher-quality spaces that better meet the needs of users through intelligent lighting design. Additionally, this research can contribute to the development of new standards for evaluating the quality of light in built environments.
By focusing on geometric light patterns and their impact on user perception, this research delves into a new area of research in architectural lighting. Defining a lighting satisfaction index is also one of the innovations of this research, which can be used as a tool for comparing and evaluating the quality of light in different spaces. It is expected that the results of this research will lead to a deeper understanding of the relationship between geometric light patterns and user perception, and will result in recommendations for optimal lighting design in residential spaces. Furthermore, this research can improve people's quality of life by creating spaces with more suitable lighting.