VIEWRAY TECH INC has a total of 120 patent applications. It decreased the IP activity by 40.0%. Its first patent ever was published in 2010. It filed its patents most often in United States, EPO (European Patent Office) and China. Its main competitors in its focus markets medical technology, measurement and computer technology are KARASEV ALEKSANDR ALEKSANDROVI, VIEWRAY TECHNOLOGIES INC and VIEWRAY INC.
# | Country | Total Patents | |
---|---|---|---|
#1 | United States | 34 | |
#2 | EPO (European Patent Office) | 21 | |
#3 | China | 14 | |
#4 | Japan | 12 | |
#5 | WIPO (World Intellectual Property Organization) | 12 | |
#6 | Canada | 11 | |
#7 | Republic of Korea | 8 | |
#8 | Hong Kong | 7 | |
#9 | Brazil | 1 |
# | Industry | |
---|---|---|
#1 | Medical technology | |
#2 | Measurement | |
#3 | Computer technology | |
#4 | Engines, pumps and turbines | |
#5 | Electrical machinery and energy | |
#6 | Chemical engineering | |
#7 | Machines |
# | Name | Total Patents |
---|---|---|
#1 | Dempsey James F | 91 |
#2 | Kawrykow Iwan | 43 |
#3 | Shvartsman Shmaryu M | 37 |
#4 | Chmielewski Thomas | 14 |
#5 | James F Dempsey | 12 |
#6 | Gerganov Georgi | 10 |
#7 | Kishawi Eyad | 8 |
#8 | Demeester Gordon D | 6 |
#9 | Patrick John L | 6 |
#10 | Kuduvalli Gopinath | 5 |
Publication | Filing date | Title |
---|---|---|
WO2020096797A1 | Line handling system | |
CN111712298A | Optimization of multi-modality radiation therapy | |
US2019353725A1 | Resistive electromagnet systems and methods | |
US2018275238A1 | Reduction of artifacts in magnetic resonance imaging | |
CN110382049A | Radiotherapy system and method | |
KR20190043129A | Magnetic Resonance Imaging at Weak Field Strength | |
US2017367612A1 | Magnetic resonance volumetric imaging | |
CN109219990A | Field compensation in linear accelerator | |
WO2017151662A1 | Particle therapy with magnetic resonance imaging | |
KR20180087310A | Radiation beam collimation system and method | |
CN108027445A | Ion chamber for actinometry | |
EP2911745A1 | Assessment and improvement of treatment using imaging of physiological responses to radiation therapy |