Company Filing History:
Years Active: 2021-2025
Title: Mikko Lauronen: Innovator in Radio Frequency Measurement Technologies
Introduction
Mikko Lauronen is a notable inventor based in Helsinki, Finland. He has made significant contributions to the field of radio frequency (RF) measurement technologies. With a total of two patents to his name, Lauronen's work focuses on enhancing the understanding and mapping of physical environments through innovative devices.
Latest Patents
Lauronen's latest patents include a groundbreaking device for generating a multi-dimensional model of a physical environment for mapping radio frequency measurements. This device can detect RF signals using one or more antennas and generate RF measurements based on these signals. It can also create a multi-dimensional model, such as a 2D or 3D floor plan, based on sensor information. The device is capable of mapping RF measurements to specific locations within this model, and it can configure a graphical user interface to display the model and mapping, potentially representing a heat map for network changes.
Another significant patent is for a portable measuring device designed to facilitate disturbance measurements within a WLAN network. This device includes a casing, interfaces for external device connections, a processor, antennas, two simultaneously operating radios, power sources, and a power switch. This innovation aims to improve the efficiency of WLAN network measurements.
Career Highlights
Mikko Lauronen has worked with notable companies such as Ekahau Oy and Ekahau, Inc. His experience in these organizations has contributed to his expertise in RF technologies and measurement devices.
Collaborations
Lauronen has collaborated with professionals like Jussi-Heikki Matias Kiviniemi and Jarno Kinnunen, further enhancing his work in the field.
Conclusion
Mikko Lauronen's contributions to radio frequency measurement technologies demonstrate his innovative spirit and commitment to advancing the field. His patents reflect a deep understanding of the complexities of physical environments and the importance of accurate RF measurements.