Simona Granchi

Title: Simona Granchi: Innovator in Spectral Analysis Technology

Introduction

Simona Granchi is a notable inventor based in Arezzo, Italy. She has made significant contributions to the field of spectral analysis, particularly in the context of echographic signals. With a total of 2 patents, her work has advanced the understanding and application of ultrasonic technology.

Latest Patents

Simona's latest patents include a "Method and device for spectral analysis of an echographic signal." This invention describes a method for analyzing radio frequency ultrasonic signals reflected by structures under echographic examination. The process involves transmitting an ultrasonic excitation signal, receiving a radio frequency response signal, applying a time-frequency transform, and calculating local spectral parameters from the transformed signal.

Another significant patent is the "Method and device for local spectral analysis of an ultrasonic signal." This method decomposes the radio frequency signal into sub-bands through filtering, utilizing a time-frequency transform. The resulting spectral coefficients are used to create local estimators, which provide valuable spectral information for identifying specific structures in organs subjected to ultrasound analysis.

Career Highlights

Throughout her career, Simona has worked with prominent companies such as Actis Active Sensors S.r.l. and Esaote S.p.a. Her experience in these organizations has allowed her to refine her skills and contribute to innovative projects in the field of ultrasonic technology.

Collaborations

Simona has collaborated with notable professionals in her field, including Leonardo Masotti and Elena Biagi. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas.

Conclusion

Simona Granchi's contributions to spectral analysis technology highlight her role as a leading inventor in the field. Her patents reflect her dedication to advancing ultrasonic technology and improving diagnostic methods.