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Arnaud Croux

from Brookline, MA
Age ~38
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Connected to:
Nicole L Croux, 36Lisandro Crouzeilles, 32Arnaud V Crouzet, 49Aurelien Crouzet, 37Didier E Crouzet, 62Priscilla W Crouzet, 92Karen B Crovador, 60Randolph J Crovador, 71Hanna K Crovak, 28Mildred B Crovato, 96

Arnaud Croux Phones & Addresses

  • Brookline, MA
  • Boston, MA

Work

Company: Schlumberger Jan 2017 Position: Senior robotics engineer

Education

School / High School: Mines Paristech 2007 to 2010 Specialities: Energy

Skills

Signal Processing • Telemetry • Wireless Networking • Physics • Algorithm Design • R&D • Matlab • Oil and Gas • Product Development • Acoustics • Sensors • Engineering

Industries

Oil & Energy

Resumes

Resumes

Arnaud Croux Photo 1

Senior Robotics Engineer

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Location:
Boston, MA
Industry:
Oil & Energy
Work:
Schlumberger
Senior Robotics Engineer
Schlumberger Sep 1, 2010 - May 2015
Physicist
Schlumberger Sep 1, 2010 - May 2015
Senior Research Engineer at Schlumberger
Aristot Jan 2010 - Sep 2010
Expert Dans Le Domaine De L'ã Â Nergie Et De La Thermique
Acted 2009 - 2009
Focal Point Microfinance
Education:
Mines Paristech 2007 - 2010
Skills:
Signal Processing
Telemetry
Wireless Networking
Physics
Algorithm Design
R&D
Matlab
Oil and Gas
Product Development
Acoustics
Sensors
Engineering

Publications

Us Patents

Subsea Oilfield Communications System

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US Patent:
20210274270, Sep 2, 2021
Filed:
May 17, 2021
Appl. No.:
17/321860
Inventors:
- London, GB
Julius Kusuma - Fremont CA, US
Andriy Gelman - Somerville MA, US
Arnaud Croux - Boston MA, US
Sudhir Pai - Houston TX, US
Neil Herbst - Phoenix AZ, US
Jack Vincent - Katy TX, US
International Classification:
H04Q 9/00
E21B 41/00
H04B 11/00
H04B 13/02
Abstract:
A method for transmitting signals in a subsea environment includes determining that a quality of an acoustic signal is below a threshold. The acoustic signal travels from a first device, through water in the subsea environment, to a second device. A parameter of the first device, the second device, or both is then adjusted to improve the quality of the acoustic signal when the quality of the acoustic signal is below the threshold.

Combined Wireline And Wireless Apparatus And Related Methods

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US Patent:
20210131277, May 6, 2021
Filed:
Dec 19, 2016
Appl. No.:
16/471436
Inventors:
- Sugar Land TX, US
Stephane Vannuffelen - Cambridge MA, US
Arnaud Croux - Boston MA, US
International Classification:
E21B 47/16
E21B 23/14
G01L 13/00
Abstract:
Combined wireline and wireless apparatus and related methods are disclosed herein. An example apparatus includes a tool string including a tool bus and a first acoustic repeater coupled to the tool string. The first acoustic repeater is to communicate with a second acoustic repeater to exchange data. The second acoustic repeater is communicatively coupled to a first tool. The first tool is not communicatively coupled to the tool bus.

Combined Telemetry And Control System For Subsea Applications

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US Patent:
20200116017, Apr 16, 2020
Filed:
Dec 19, 2016
Appl. No.:
16/471216
Inventors:
- Sugar Land TX, US
Arnaud Croux - Boston MA, US
Stephane Vannuffelen - Cambridge MA, US
International Classification:
E21B 47/16
E21B 33/064
E21B 33/06
Abstract:
A technique facilitates communication in a subsea well application. The technique involves deployment of a blowout preventer subsea control and telemetry system to a subsea location proximate a wellbore. The blowout preventer subsea control and telemetry system is coupled to both a blowout preventer system and a wireless telemetry system. The wireless telemetry system has a plurality of repeaters deployed along the wellbore. The blowout preventer subsea control and telemetry system is used both to collect data from the wireless telemetry system and to control operation of the blowout preventer system. For example, the blowout preventer subsea control and telemetry system may receive control signals from a surface system and also relay data to the surface system through a common communication line.

Wireless Acoustic Communication Apparatus And Related Methods

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US Patent:
20200088027, Mar 19, 2020
Filed:
Dec 19, 2016
Appl. No.:
16/471347
Inventors:
- Sugar Land TX, US
Christophe M. Rayssiguier - Clamart, FR
Arnaud Croux - Boston MA, US
International Classification:
E21B 47/16
E21B 47/01
E21B 17/10
G10K 11/00
Abstract:
Wireless acoustic communication apparatus and related methods are disclosed herein. An example apparatus includes a first rod and a second rod. The first rod and the second rod are to form a rod string. The example apparatus includes a first acoustic repeater mechanically coupled to the first rod. The first acoustic repeater is to communicate with a second acoustic repeater to convey data via the rod string. The second acoustic repeater is to receive the data from a first tool.

System And Method To Automate Data Acquisition In A Wireless Telemetry System

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US Patent:
20190316464, Oct 17, 2019
Filed:
Jun 28, 2019
Appl. No.:
16/456977
Inventors:
- Sugar Land TX, US
Clement Probel - Paris, FR
Stephane Vannuffelen - Cambridge MA, US
Andriy Gelman - Somerville MA, US
Arnaud Croux - Boston MA, US
Elias Temer - Clamart, FR
Khaled Mouffok - Clamart, FR
International Classification:
E21B 47/14
Abstract:
A system and method to automate data acquisition in a wireless telemetry network optimizes data acquisition to best match a target data set that the user desires given the performance limitations of the telemetry network. The user defines the target data set by providing inputs regarding a target quality of the target data set relative to a data set that has been produced and stored by a communication node in the network. The performance limitations of the network are defined in a system operating envelope. A data acquisition cycle is then automatically initiated and propagated in the network to acquire an actual data set that is an optimal match for the user's target given the system operating envelope.

System And Method To Automate Data Acquisition In A Wireless Telemetry System

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US Patent:
20190186260, Jun 20, 2019
Filed:
Dec 15, 2017
Appl. No.:
15/843773
Inventors:
- Sugar Land TX, US
Clement Probel - Clamart, FR
Stephane Vannuffelen - Cambridge MA, US
Andriy Gelman - Somerville MA, US
Arnaud Croux - Boston MA, US
Elias Temer - Clamart, FR
Khaled Mouffok - Clamart, FR
International Classification:
E21B 47/14
Abstract:
A system and method to automate data acquisition in a wireless telemetry network optimizes data acquisition to best match a target data set that the user desires given the performance limitations of the telemetry network. The user defines the target data set by providing inputs regarding a target quality of the target data set relative to a data set that has been produced and stored by a communication node in the network. The performance limitations of the network are defined in a system operating envelope. A data acquisition cycle is then automatically initiated and propagated in the network to acquire an actual data set that is an optimal match for the user's target given the system operating envelope.

Subsea Oilfield Communication System

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US Patent:
20190020935, Jan 17, 2019
Filed:
Jul 11, 2018
Appl. No.:
16/032104
Inventors:
- London, GB
Julius Kusuma - Arlington MA, US
Andriy Gelman - Somerville MA, US
Arnaud Croux - Boston MA, US
Sudhir Pai - Houston TX, US
Neil Herbst - Houston TX, US
Jack Vincent - Katy TX, US
International Classification:
H04Q 9/00
H04B 11/00
H04B 13/02
Abstract:
A method for transmitting signals in a subsea environment includes determining that a quality of an acoustic signal is below a threshold. The acoustic signal travels from a first device, through water in the subsea environment, to a second device. A parameter of the first device, the second device, or both is then adjusted to improve the quality of the acoustic signal when the quality of the acoustic signal is below the threshold.

Real-Time Electromagnetic Telemetry System

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US Patent:
20180003043, Jan 4, 2018
Filed:
Jun 12, 2017
Appl. No.:
15/620703
Inventors:
- Sugar Land TX, US
Julius Kusuma - Arlington MA, US
Luis Eduardo DePavia - Sugar Land TX, US
Arnaud Croux - Boston MA, US
International Classification:
E21B 47/12
G01V 11/00
E21B 49/00
Abstract:
A method for improving a quality of data received from a downhole tool in a wellbore includes receiving a first block of data from a downhole tool in a wellbore. The first block of data represents a first measurement captured by the downhole tool during a first period of time. At least a portion of a bit budget for a second block of data is allocated to the first block of data to produce an updated first block of data. The method also includes receiving the second block of data from the downhole tool in the wellbore. The second block of data represents a second measurement captured by the downhole tool during a second period of time.
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Arnaud Croux from Brookline, MA, age ~38 Get Report