Baker Hughes Incorporated Patent Portfolio Statistics

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Baker Hughes Incorporated

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This article summarizes the perfomance of the assignee in the recent years. The overall statistics for this portfolio help to analyze the areas where the assignee is performing well. The filing trend, perfomance across the tech centers and the perfomance of the recent applications has been mentioned below. All the stats are calculated based on the perfomance in USPTO.

How does the overall patent portfolio of Baker Hughes Incorporated look like?

	Assignee	Art Units
Total Applications:	7,537	1,903,572
Granted Patents:	5,698	1,383,829
Grant Index	80.81% ↑	76.46%
Abandoned/Rejected Applications:	1,353 (19.19%)	425,985 (23.54%)
In-Process Applications:	486	93,758
Average Grant Time:	3.07 Years ↑	2.6 Years
Average Office Actions:	1.99 ↑	1.49

Which Technology Area Baker Hughes Incorporated is filing most patents in? (Last 10 years)

Art Unit	Definition	Total Applications
3672	Wells, Earth Boring/Moving/Working, Excavating, Mining, Harvesters, Bridges, Roads, Petroleum, Closures, Connections, and Hardware	1,568
3676	Wells, Earth Boring/Moving/Working, Excavating, Mining, Harvesters, Bridges, Roads, Petroleum, Closures, Connections, and Hardware	1,434
3674	Wells, Earth Boring/Moving/Working, Excavating, Mining, Harvesters, Bridges, Roads, Petroleum, Closures, Connections, and Hardware	425
2862	Printing/Measuring and Testing	198
2856	Printing/Measuring and Testing	161

How many patents are Baker Hughes Incorporated filing every year?

Year	Total Applications	Predicted
2022	0*	426
2021	3*	442
2020	9	274
2019	24	24
2018	18	–
2017	225	–
2016	437	–
2015	383	–
2014	553	–
2013	461	–

*The drop in the number of applications filed in last two years compared to previous years is because applications can take up to 18 months to get published

Recently filed patent applications of Baker Hughes Incorporated in USPTO?

Publication number: US20210332694A1
Application number: 17/370,419

Abstract:
A method for predicting a pressure window for drilling a borehole in a formation includes: obtaining a pore pressure related data value of the formation using a data acquisition tool; predicting pore pressure uncertainty from the pore pressure related data value of the formation using a processor; estimating uncertainty of a pressure window for drilling fluid using the predicted pore pressure uncertainty using a processor; and applying the estimated uncertainty to the pressure window to provide a modified pressure window using a processor.

Publication date: 2021-10-28
Applicant: Baker Hughes Incorporated
Inventors: Philipp Tesch

Publication number: US20210141350A1
Application number: 17/153,023

Abstract:
Techniques for integrating contextual information into a workflow for a wellbore operation are described. According to an embodiment, a computer-implemented method includes defining, by a processing device, the workflow as a plurality of steps. The method further includes defining, by the processing device, a contextual information field associated with at least one of the plurality of steps. The method further includes receiving, by the processing device, contextual information associated with the contextual information field. The method further includes displaying, by the processing device, the at least one of the plurality of steps of the workflow and the contextual information associated with the contextual information field by integrating the contextual information into the at least one of the plurality of steps.

Publication date: 2021-05-13
Applicant: Baker Hughes Incorporated
Inventors: Dashevskiy Dmitriy

Publication number: US20200224533A1
Application number: 16/826,375

Abstract:
A system and method for logging in a wellbore where sensor assemblies on a logging tool are deployed and landed in the wellbore. After the sensor assemblies are landed in the wellbore and released from the logging tool, the logging tool is pulled uphole. Moving the logging tool uphole from where the sensor assemblies are landed, reduces interference of the logging tool with measurements obtained with the sensor assemblies. The sensor assemblies include sensors for detecting fluid flow, pressure, temperature, fluid density, formation resistivity, and which can be mechanical, optical, acoustic, or electromagnetic.

Publication date: 2020-07-16
Applicant: Baker Hughes Incorporated
Inventors: Castillo Homero

How are Baker Hughes Incorporated’s applications performing in USPTO?

Application Number	Title	Status	Art Unit	Examiner
17/370,419	Method To Predict Overpressure Uncertainty From Normal Compaction Trendline Uncertainty	Docketed New Case – Ready for Examination	OPAP	Central, Docket
17/153,023	Integrating Contextual Information Into Workflow For Wellbore Operations	Response to Non-Final Office Action Entered and Forwarded to Examiner	3672	Bemko, Taras P
16/826,375	Segmented Wireless Production Logging	Patented Case	2852	Schmitt, Benjamin R
16/733,099	Polycrystalline Diamond	Non Final Action Mailed	1731	Parvini, Pegah
16/488,833	Sensor Configuration	Abandoned — Failure to Respond to an Office Action	3674	Carroll, David P.