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fos4X GmbH

Overview
  • Total Patents
    176
  • GoodIP Patent Rank
    8,416
  • Filing trend
    ⇧ 4.0%
About

fos4X GmbH has a total of 176 patent applications. It increased the IP activity by 4.0%. Its first patent ever was published in 2009. It filed its patents most often in Germany, WIPO (World Intellectual Property Organization) and EPO (European Patent Office). Its main competitors in its focus markets engines, pumps and turbines, measurement and environmental technology are AGILE WIND POWER AG, MITA TEKNIK AS and SVENNING KONSULT AB S.

Patent filings in countries

World map showing fos4X GmbHs patent filings in countries

Patent filings per year

Chart showing fos4X GmbHs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Müller Mathias 66
#2 Schmid Markus 44
#3 Schauss Thomas 41
#4 Schubert Matthias 26
#5 Rieger Florian 24
#6 Muller Mathias 21
#7 Kienitz Sascha 20
#8 Mai Manuel 20
#9 Hoffmann Lars 14
#10 Zelenka Fabian 12

Latest patents

Publication Filing date Title
DE102019127954A1 METHOD OF CONTROLLING A WIND FARM, DEVICE FOR CONTROLLING A WIND FARM
DE102019119774A1 Method for controlling a wind park, control module for a wind park and wind park
DE102019117874A1 Method for regulating a sheet heater, sheet heater and device for carrying out the method
DE102019114529A1 Modeling and prediction of wake vortices and wind shear with fiber optic sensors in wind turbines
DE102019104820A1 Wind energy installation, sensor kit for a wind energy installation, system with a wind energy installation and an online-based storage and server service and method for sending data from a wind energy installation to an online-based storage and server service
DE102019101630A1 Fiber optic sensor and method
DE102018127801A1 Improvement or optimization of the yield of a wind energy plant through aerodynamic adaptation in the event of a stall
DE102018127804A1 Improvement or optimization of the yield of a wind turbine by detecting a stall
DE102018127414A1 Improvement or maximization of the yield depending on the turbulence intensity and its measurement
DE102018127415A1 Wind turbine control based on sound emission measurement using pressure sensors on rotor blades
DE102018127417A1 Modeling and forecasting wind flow using fiber optic sensors in wind turbines
DE102018125512A1 Sensor arrangement, damage detection device, belt for a rotor blade and wind turbine
DE102018124753A1 Temperature compensated fiber optic sensor and method for pressure measurement
DE102018119733A1 Determination of the torsion angle and determination of the pitch angle by means of at least two acceleration sensors
DE102018116941A1 Device and method for recognizing the accumulation or the type of ice on a rotor blade of a rotor of a wind turbine
DE102018112825A1 Sensor arrangement for a wind turbine
DE102018110494A1 Machine to Machine Sensor data transaction with data marketplace
DE102018108724A1 Method for inductive bonding of sensors in wind turbines
DE102018106710A1 temperature sensor
DE102018106712A1 Coil and method of making a coil