الفهرس 
IntroductionOnly 14 pages are availabe for public view
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Abstract
Today, the effects of indoor environmental quality on the well-being and health of users is a very important topic, requiring a holistic approach in which the four main environmental factors (thermal comfort, air quality, acoustics, and lighting) are optimally realized, enhanced, and evaluated together, with the aim of improving their condition Psychological and health, targeting the disabled, the incapable of movement, and patients in the treatment and psychological facilities for the elderly and adults. With the multiplicity and diversity of the categories used for these examples, it has become difficult to determine the requirements of each patient individually and to provide the optimal environment to speed up the recovery process and improve psychological and physical health, except through the use of intelligent kinetic engineering, and its ability to transmit information about users’ thoughts, feelings, and activities in the therapeutic space, taking into account the mood or cognition problems, and contributing to providing their requirements to raise the therapeutic effectiveness of the occupied places. Users may not feel comfortable sometimes despite the availability of many facilities and requirements for them without knowing the reason, and this feeling will certainly enhance their lack of belonging to the space, due to the lack of designs And determinants with semantics and symbols that simulate the nature of the user’s requirements and beliefs, and the physical and moral conditions. Therefore, many interactive design stimuli contribute to placing an architectural imprint for each user to facilitate interaction with him and simulate his conditions, or even contribute to improving his physiological and psychological state, to achieve the highest productivity in the activities he exercises. Certainly, this, in turn, enhances his belonging to the place in which he resides and creates a personal identity for the architectural design, based on his input data, which is monitored through smart monitors, sensors, and devices that follow motor behavior, facial gestures, body language, and others. This data includes patient biometrics, which is used as inputs that guide the interactive kinematic engineering vocabulary in interior design, with the goal of interacting in real-time at the rate appropriate to the patient’s current conditions. This thesis pushes the boundaries of what can be accomplished to improve human emotional experiences within space. This approach is a framework for transforming built environments into a networked intelligent object that is sensitive, empathetic, and adaptive, but under the overall control of users, and the result of this ongoing research is a platform for architectural designers to study and create new capabilities for adaptive architecture in the current technological moment in collaboration with many other specialties.