Dean Peter Giovannetti

Title: Dean Peter Giovannetti: Innovator in Augmented Manufacturing

Introduction

Dean Peter Giovannetti is a notable inventor based in San Jose, California. He has made significant contributions to the field of additive manufacturing, particularly through his innovative patent that enhances the functionality of 3D printing technologies. His work is particularly relevant in applications where physical modifications to machines are impractical, such as in aerospace.

Latest Patents

Giovannetti holds a patent titled "Augmented manufacturing by embedding autonomous interactions between manufactured components and manufacturing machines." This patent focuses on augmenting the functionality of off-the-shelf additive manufacturing machines, like 3D printers. The invention involves generating a component design that includes autonomy characteristics, allowing for enhanced interactions between the manufactured components and the machines. The design incorporates code that instructs the additive machine to build ancillary components, such as cantilever springs, which can be used to propel the primary manufactured object off the build platform. This innovation expands the capabilities of additive manufacturing without requiring physical modifications to the machines, making it particularly useful for applications in spacecraft and rapid prototyping.

Career Highlights

Giovannetti is currently associated with the United States of America as represented by the Administrator of NASA. His work has been instrumental in advancing the field of additive manufacturing, particularly in the context of space exploration and material testing.

Collaborations

Throughout his career, Giovannetti has collaborated with talented individuals such as Arash Mazhari and Rachel Lackritz Ticknor. These collaborations have contributed to the development of innovative solutions in manufacturing technologies.

Conclusion

Dean Peter Giovannetti is a pioneering inventor whose work in augmented manufacturing is shaping the future of additive technologies. His innovative patent demonstrates the potential for enhancing manufacturing processes without physical alterations to existing machines. His contributions are vital for advancing applications in various fields, including aerospace and rapid prototyping.