LUMEDYNE TECH INCORPORATED has a total of 48 patent applications. It decreased the IP activity by 100.0%. Its first patent ever was published in 2009. It filed its patents most often in United States, Taiwan and China. Its main competitors in its focus markets measurement, micro-structure and nano-technology and basic communication technologies are NEW SD INC, DILLBERG GUSTAF and MET TECH INC.
# | Country | Total Patents | |
---|---|---|---|
#1 | United States | 14 | |
#2 | Taiwan | 10 | |
#3 | China | 7 | |
#4 | WIPO (World Intellectual Property Organization) | 7 | |
#5 | EPO (European Patent Office) | 6 | |
#6 | Canada | 2 | |
#7 | Australia | 1 | |
#8 | Republic of Korea | 1 |
# | Technology | |
---|---|---|
#1 | Measuring speed and acceleration | |
#2 | Measuring distances | |
#3 | Microstructural devices | |
#4 | Special measuring | |
#5 | Making microstructural devices | |
#6 | Geophysics | |
#7 | Generation of oscillations | |
#8 | Pulse technique | |
#9 | Dynamo-electric machines | |
#10 | Resonators |
# | Name | Total Patents |
---|---|---|
#1 | Huang Xiaojun | 25 |
#2 | Waters Richard Lee | 20 |
#3 | Anac Ozan | 16 |
#4 | Jacobs John David | 16 |
#5 | Fralick Mark Steven | 16 |
#6 | Zhang Yanting | 11 |
#7 | Tally Iv Charles Harold | 9 |
#8 | Waters Richard L | 7 |
#9 | Fralick Mark | 6 |
#10 | Dao Ricardo Emilio | 5 |
Publication | Filing date | Title |
---|---|---|
US2018031601A1 | Composite vibratory in-plane accelerometer | |
US2018031603A1 | Systems and methods for detecting inertial parameters using a vibratory accelerometer with multiple degrees of freedom | |
US2018299269A1 | Multi-axis, single-drive inertial device | |
US2018031602A1 | Converting rotational motion to linear motion | |
US2017003314A1 | Z-axis physical proximity switch | |
TW201721151A | Z-axis physical proximity switch | |
EP3298414A1 | Extracting inertial information from nonlinear periodic signals | |
WO2016187560A1 | Extracting inertial information from nonlinear periodic signals | |
US2017153266A1 | Systems and methods for determining inertial parameters using integration | |
US2015377622A1 | Systems and methods for controlling oscillation of a gyroscope | |
CN105723184A | Inertial sensor using sliding plane proximity switches | |
AU2010281508A1 | High sensitivity geophone |