It is known that in our time computer geometric modeling is the basis for the automated design of many industrial products. This is primarily due to the fact that the shape and size of the technical objects largely determine the quality of the created products. The current problem is the difficulty in determining the optimal values of geometric parameters, especially for complex technical products, for example, such as airplanes. Computer information technologies significantly contribute to the successful completion of these tasks. Therefore, the development of the theory and practice of shaping technical objects is an important direction for further improvement of the modern computer-aided design.The article analyzes some topical questions of automated geometric modeling of industrial products. The proposed approach is based on the achievements of the School of Applied Geometry of the National Technical University of Ukraine "Igor Sikorsky Kiev Polytechnic Institute" and their implementation in various industries, in particular, aviation and agricultural machinery. The presented ideas are an effective direction for further scientific research and improvement of automated shaping of technical objects, the implementation of the obtained results in practice.In this publication, based on the analyzed literature sources, identifies a promising approach to the computer-aided shaping of various industrial products. The technique of generalizing the application of the proposed method of reducing the field of design decisions from simple parts to complex products is described on the example of the creation of a nut and an airplane. Based on this, the necessary methods, techniques, algorithms for automated geometric modeling of technical objects are predicted. The questions of generalization and integration of the mathematical, informational and computer-based software tools for automated shaping in the modern computer-aided design systems are considered.