The reality, though diminished in a simplified form, is in advance, i.e. in an anticipated way. By adapted periscope the endoscopic method develops the method of spatial modeling in new media dimension and enriches it towards creativeness by enabling the simulated space to be percepted on a traditional artificial model in natural horizon of a man. To secure the anticipation by visual simulation of spatial experience on the monitor in a trustworthy manner with respect to real reality, according to relevant aspects of the conception, the visual simulation must respect the rules of sensory perception of a man in real environment. From the procedural point of view of perception the most significant fact for the psyche is the sequence dynamics of the subject and the movement of the perceiver in space. This means that in the mind of the perceiver the most emotionally reflected is the dynamic spatial experience.

Despite the known disadvantages and technical circumstances of model building the method of spatial endoscopy proved itself in didactics, mainly in the approval phase of the aims of urbanistic composition and shaping of an urban space, especially because it enables to carry out by interactive means the sequence research and evaluation of the simulated space on the working model, directly in the studio or in laboratory conditions with relatively low expenses, and with the possibility of immediate correction and subsequent evaluation of the effect. Similarly, its audiovisually elaborated media outputs may simultaneously complete the identical model presentation within evaluating and approving continuations in professional gremiums or in making the results of urban and architectonic solutions popular in the layman public. According to an informal public opinion research on the effect of both CAD and endoscopy simulations, the later one is more popular. Is is, however, a matter of subjective evaluation and experience or a matter of commercial application.

Due to its small scale and low cost, the TinyZ could be distributed as a kit to each participant in the studio. The TinyZ Kit was largely composed of standard parts and repetitive assemblies, making the machine itself extremely modular and easily reconfi gurable to adapt to different material processes and projects throughout the semester.

Desktop scaled fabrication tools designed to reach a distributed audience abound in industry, academia, and amongst DIY-ers. Drawing from these precedents, a desktop milling machine called the TinyZ was developed to support digital fabrication in an architectural studio held at MIT in the Spring of 2021. The machine was designed to be an easily reconfigurable rapid prototyping tool intended to adapt to evolving design processes.

The TinyZ Kit introduced students to the basics of machine building, electronics, and computer numerically controlled (CNC) programming. The outcome of the studio showed the potential for different home labs to develop specializations and to collaborate by out-sourcing, offering a way for students to work together remotely. Finally, the work of the studio demonstrated that new material processes developed remotely could return to fab labs and extend the capacities of shared maker spaces.