Robot Ergonomics: Giving the Behavioral Objects a dynamic presence

The designer is always concerned with how robotic systems exist, their direct interactions with the human element, and how robotic products connected to their dynamic presence within the real world. There was a need that Ergonomics should always be reviewed in accordance with the novelty of any of the products designed for human interactions, particularly those containing physical reactions to work on the reasonableness of spontaneous interaction. It has become necessary for the designer to set clear standards for designing a special dictionary for communication between the human element and robotic systems – Operational Space formulation – within interactive work environments. Through these crucial steps, the designer can set the theoretical rules for these interactions to appear logical, through which interactions can be designed with a new perspective in order to establish the concepts of technology innovations and to design robotic systems. As physical interaction becomes an integral part of designing robot products, the need led to integrate Ergonomics science to what is known as robot factors. Focusing on one of those elements should not be realistic, but rather the robot products must be shown within the experience – as new Behavioral Objects – and considered that it is a real being that has a unique behavior and represents a firm part of reality. The real role of realism is manifested when all the elements associated with the Operational Space formulation are equal. Therefore, the result of the application of the proactive work environment is reflected in the intuitive interactions or what means expectant intuition in humans, that is, when the designer works to formulate the operational space for a proactive work environment that makes it automatic interactions, in order to let the user have a successful experience and make it more unique and attractive. Therefore, the research aims to focus light on the determinants of Operational Space formulation for the presence of robotic systems within the interaction environments with the human element, and how the user realization them during the interaction experience. The researcher has relied on the inductive approach to study the research problem, enhancing the presence of the human element within interaction experiences, and working on how Raising the behavioral level of interactive products and robotic systems, finding the determinants of shaping the dynamic presence and Operational Space formulation for these types of future interactive products and robots.