Jalali, Mansoureh Sadat2023-08-252023-08-252023-08-08vt_gsexam:38155http://hdl.handle.net/10919/116109Approximately 300 years ago, French astronomer, Jean Jacques became the first individual to scientifically observe circadian rhythm. Since then, a great deal of study has been conducted, and its findings demonstrate that every human action, including digestion, sleep and waking hours, hormone release, blood pressure, and body temperature, is controlled by a physiological mechanism. More critically, any modification to this clock may have an impact on a person's immune system. The sun's rays are diffused in the sky and contain all the required wavelengths to enable the regular stimulation of the circadian rhythms of humans, animals, and plants. People's health and well-being will be supported if they have adequate access to daylight. However, given the changes in the way of life of modern humans, this is not possible. Additionally, as the human circadian rhythm is greatly influenced by the short wavelengths of the visible light spectrum, the process of LEDification would increase human exposure to LEDs blue light, which might negatively affect their health and well-being. This research involves the development of a new architectural design framework to evaluate and support the process of creating lighting systems that maintain human healthy circadian rhythm. This process develops a model consisting of key decisions made in each stage of the design process and related knowledge domains to successfully integrate dynamic lighting techniques into the building design. The process explains the role of each member, the essential tools, and the flow of the decision-making process.ETDenIn Copyrightcircadian lighting designarchitectural designlighting designhealth and well-beinginterior designDevelopment of a Novel Architectural Design Framework for Supporting Occupants' Healthy Circadian Rhythm in Interior SpacesDissertation