Patents by Inventor Arvind Ananthanarayanan

Arvind Ananthanarayanan has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 12555697
    Abstract: The present invention discloses a method for the separation of radionuclides from an aqueous radioactive waste solution, the method comprising: receiving of an aqueous radioactive waste solution, adding at least one zirconium salt to the aqueous radioactive waste solution, changing the pH of the radioactive waste solution to obtain a precipitate P, and separating the precipitate P from the radioactive waste solution. The present invention also discloses the use of zirconium salts, preferably zirconium oxychloride, zirconium nitrate or a zirconium oxynitrate or any mixture thereof, for the treatment of aqueous radioactive waste solution, preferably acidic or alkaline intermediate or low level radioactive waste solution, preferably an acidic intermediate and/or low level radioactive waste solution.
    Type: Grant
    Filed: January 14, 2022
    Date of Patent: February 17, 2026
    Assignee: Dept of Atomic Energy Government of India
    Inventors: Sumit Pahan, Arvind Ananthanarayanan, Raman Kumar Mishra, Dayamoy Banerjee, Tessy Vincent, Sugilal Gopalakrishnan, Chetan Parkash Kaushik
  • Patent number: 12350830
    Abstract: A robotic device for operation in association with an appendage of a user, wherein the appendage of the user has an endpoint, the robotic device comprising: a base; and a robotic arm attached to the base and having an end-point, the robotic arm having at least two active degrees of freedom relative to the base and being configured so that when the base is appropriately positioned relative to a user, the reference frame of the robotic device is oriented generally similarly to the reference frame of the user and motions of the endpoint of the appendage of the user are mimicked by motions of the endpoint of the robotic arm.
    Type: Grant
    Filed: September 30, 2016
    Date of Patent: July 8, 2025
    Assignee: Barrett Technology, LLC
    Inventors: William T. Townsend, David Wilkinson, Alexander Jenko, Julian Leland, Arvind Ananthanarayanan, James Patton, Claude Valle, Michael Morin, Donald Drumm, Amy Blank, Brian Zenowich, Michael Schiess
  • Publication number: 20230230717
    Abstract: The present invention discloses a method for the separation of radionuclides from an aqueous radioactive waste solution, the method comprising: receiving of an aqueous radioactive waste solution, adding at least one zirconium salt to the aqueous radioactive waste solution, changing the pH of the radioactive waste solution to obtain a precipitate P, and separating the precipitate P from the radioactive waste solution. The present invention also discloses the use of zirconium salts, preferably zirconium oxychloride, zirconium nitrate or a zirconium oxynitrate or any mixture thereof, for the treatment of aqueous radioactive waste solution, preferably acidic or alkaline intermediate or low level radioactive waste solution, preferably an acidic intermediate and/or low level radioactive waste solution.
    Type: Application
    Filed: January 14, 2022
    Publication date: July 20, 2023
    Applicant: Department of Atomic Energy Government of India
    Inventors: Sumit Pahan, Arvind Ananthanarayanan, Raman Kumar Mishra, Dayamoy Banerjee, Tessy Vincent, Sugilal Gopalakrishnan, Chetan Parkash Kaushik
  • Patent number: 11075046
    Abstract: A cable pull switch includes a polychotomous sensor configured to provide a reading of at least one of a plurality of values, the reading corresponding to a tension on a pull cable or a linear displacement of an end of a pull cable. A processor coupled to the polychotomous cable pull sensor configured to determine a rate of change of the value of the reading from the sensor and determine an occurrence of a cable pull event, the determination based on the determined rate of change of the value, and determine whether the rate of change of the value of an electrical resistance through the polychotomous cable pull sensor is below a threshold rate of change value, and adjust an upper pull threshold value to a new upper pull threshold value that is based on a present reading of the value of the electrical resistance through the strain gauge.
    Type: Grant
    Filed: May 12, 2020
    Date of Patent: July 27, 2021
    Assignee: Rockwell Automation Technologies, Inc.
    Inventors: Andrew L. Tsang, Burt Sacherski, Steven Robert Tambeau, Arvind Ananthanarayanan, James Edward Dogul, Todd Bubar
  • Patent number: 10925797
    Abstract: A robotic device for operation in association with an appendage of a user, wherein the appendage of the user has an endpoint, the robotic device including: a base; and a robotic arm attached to the base and having an endpoint, the robotic arm having at least two active degrees of freedom relative to the base and being configured so that when the base is appropriately positioned relative to a user, the reference frame of the robotic device is oriented generally similarly to the reference frame of the user and motions of the endpoint of the appendage of the user are mimicked by motions of the endpoint of the robotic arm.
    Type: Grant
    Filed: November 20, 2018
    Date of Patent: February 23, 2021
    Assignee: Barrett Technology, LLC
    Inventors: William T. Townsend, David Wilkinson, Alexander Jenko, Julian Leland, Arvind Ananthanarayanan, James Patton
  • Publication number: 20200298402
    Abstract: A robotic device for operation in association with an appendage of a user, wherein the appendage of the user has an endpoint, the robotic device comprising: a base; and a robotic arm attached to the base and having an end-point, the robotic arm having at least two active degrees of freedom relative to the base and being configured so that when the base is appropriately positioned relative to a user, the reference frame of the robotic device is oriented generally similarly to the reference frame of the user and motions of the endpoint of the appendage of the user are mimicked by motions of the endpoint of the robotic arm.
    Type: Application
    Filed: September 30, 2016
    Publication date: September 24, 2020
    Inventors: William T. Townsend, David Wilkinson, Alexander Jenko, Julian Leland, Arvind Ananthanarayanan, James Patton, Claude Valle, Michael Morin, Donald Drumm, Amy Blank, Brian Zenowich, Michael Schiess
  • Publication number: 20200273651
    Abstract: A cable pull switch includes a polychotomous sensor configured to provide a reading of at least one of a plurality of values, the reading corresponding to a tension on a pull cable or a linear displacement of an end of a pull cable. A processor coupled to the polychotomous cable pull sensor configured to determine a rate of change of the value of the reading from the sensor and determine an occurrence of a cable pull event, the determination based on the determined rate of change of the value, and determine whether the rate of change of the value of an electrical resistance through the polychotomous cable pull sensor is below a threshold rate of change value, and adjust an upper pull threshold value to a new upper pull threshold value that is based on a present reading of the value of the electrical resistance through the strain gauge.
    Type: Application
    Filed: May 12, 2020
    Publication date: August 27, 2020
    Inventors: ANDREW L. TSANG, BURT SACHERSKI, STEVEN ROBERT TAMBEAU, ARVIND ANANTHANARAYANAN, JAMES EDWARD DOGUL, TODD BUBAR
  • Patent number: 10553324
    Abstract: Provided herein is a process for removal of 99Tc from liquid intermediate level waste (ILW) of spent fuel reprocessing including the steps of: adding HNO3 to ILW till the pH is 2 to destroy the carbonates, transferring the ILW derived of carbonates to a tank containing mild steel wool (msw) for 4 to 48 hrs, subjecting the ILW and MS Wool to the step of separation, discharging the supernatant solution free of 99Tc and retaining the corrosion products (goethite(FeOOH/magnetite), subjecting the said corrosion products to the step of vitrification, and storing the said vitrified 99Tc bearing waste.
    Type: Grant
    Filed: May 9, 2017
    Date of Patent: February 4, 2020
    Assignee: Secretary, Department of Atomic Energy
    Inventors: Jayesh Gopaldas Shah, Sumit Pahan, Arvind Ananthanarayanan
  • Publication number: 20190348188
    Abstract: Provided herein is a process for removal of 99Tc from liquid intermediate level waste (ILW) of spent fuel reprocessing including the steps of: adding HNO3 to ILW till the pH is 2 to destroy the carbonates, transferring the ILW derived of carbonates to a tank containing mild steel wool(msw) for 4 to 48 hrs, subjecting the ILW and MS Wool to the step of separation, discharging the supernatant solution free of 99Tc and retaining the corrosion products (goethite(FeOOH/magnetite), subjecting the said corrosion products to the step of vitrification, and storing the said vitrified 99Tc bearing waste.
    Type: Application
    Filed: May 9, 2017
    Publication date: November 14, 2019
    Inventors: Jayesh Gopaldas Shah, Sumit Pahan, Arvind Ananthanarayanan
  • Publication number: 20190282425
    Abstract: A robotic device for operation in association with an appendage of a user, wherein the appendage of the user has an endpoint, the robotic device comprising: a base; and a robotic arm attached to the base and having an endpoint, the robotic arm having at least two active degrees of freedom relative to the base and being configured so that when the base is appropriately positioned relative to a user, the reference frame of the robotic device is oriented generally similarly to the reference frame of the user and motions of the endpoint of the appendage of the user are mimicked by motions of the endpoint of the robotic arm.
    Type: Application
    Filed: November 20, 2018
    Publication date: September 19, 2019
    Inventors: William T. Townsend, David Wilkinson, Alexander Jenko, Julian Leland, Arvind Ananthanarayanan, James Patton
  • Patent number: 10304648
    Abstract: A cable pull switch includes a polychotomous sensor configured to provide a reading of at least one of a plurality of values, the reading corresponding to a tension on a pull cable or a linear displacement of an end of a pull cable. A processor coupled to the polychotomous cable pull sensor configured to determine a rate of change of the value of the reading from the sensor and determine an occurrence of a cable pull event, the determination based on the determined rate of change of the value, and determine whether the rate of change of the value of an electrical resistance through the polychotomous cable pull sensor is below a threshold rate of change value, and adjust an upper pull threshold value to a new upper pull threshold value that is based on a present reading of the value of the electrical resistance through the strain gauge.
    Type: Grant
    Filed: November 16, 2017
    Date of Patent: May 28, 2019
    Assignee: ROCKWELL AUTOMATION TECHNOLOGIES, INC.
    Inventors: Andrew L. Tsang, Burt Sacherski, Steven Robert Tambeau, Arvind Ananthanarayanan, James Edward Dogul, Todd Bubar
  • Patent number: 10130546
    Abstract: A robotic device for operation in association with an appendage of a user, wherein the appendage of the user has an endpoint, the robotic device including: a base; and a robotic arm attached to the base and having an endpoint, the robotic arm having at least two active degrees of freedom relative to the base and being configured so that when the base is appropriately positioned relative to a user, the reference frame of the robotic device is oriented generally similarly to the reference frame of the user and motions of the endpoint of the appendage of the user are mimicked by motions of the endpoint of the robotic arm.
    Type: Grant
    Filed: September 29, 2014
    Date of Patent: November 20, 2018
    Assignee: Barrett Technology, LLC
    Inventors: William T. Townsend, David Wilkinson, Alexander Jenko, Julian Leland, Arvind Ananthanarayanan, James Patton
  • Patent number: 10072997
    Abstract: An apparatus for an imbalance test includes a strain measurement module that measures a strain voltage across terminals of a strain gauge. The strain voltage is representative of an amount of force on the strain gauge. The apparatus includes a test measurement module that measures a test voltage across the terminals of the strain gauge while a test resistor is connected in parallel with a resistor of the strain gauge. The test resistor is connected while the test measurement module measures the test voltage and is disconnected while the strain module measures strain voltage. The apparatus includes an average module that calculates an average strain voltage from two strain voltage measurements. The strain voltages are measured preceding and after the test voltage measurement. The apparatus includes a difference module that determines a difference voltage. The difference voltage is a difference between the average strain voltage and the test voltage.
    Type: Grant
    Filed: May 11, 2017
    Date of Patent: September 11, 2018
    Assignee: ROCKWELL AUTOMATION TECHNOLOGIES, INC.
    Inventors: Todd Bubar, Andrew L. Tsang, Burt Sacherski, Steven Robert Tambeau, Arvind Ananthanarayanan, James Edward Dogul, Timothy P. Wolfe
  • Publication number: 20180075995
    Abstract: A cable pull switch includes a polychotomous sensor configured to provide a reading of at least one of a plurality of values, the reading corresponding to a tension on a pull cable or a linear displacement of an end of a pull cable. A processor coupled to the polychotomous cable pull sensor configured to determine a rate of change of the value of the reading from the sensor and determine an occurrence of a cable pull event, the determination based on the determined rate of change of the value, and determine whether the rate of change of the value of an electrical resistance through the polychotomous cable pull sensor is below a threshold rate of change value, and adjust an upper pull threshold value to a new upper pull threshold value that is based on a present reading of the value of the electrical resistance through the strain gauge.
    Type: Application
    Filed: November 16, 2017
    Publication date: March 15, 2018
    Inventors: ANDREW L. TSANG, BURT SACHERSKI, STEVEN ROBERT TAMBEAU, ARVIND ANANTHANARAYANAN, JAMES EDWARD DOGUL, TODD BUBAR
  • Patent number: 9824841
    Abstract: A cable pull switch includes a polychotomous sensor configured to provide a reading of at least one of a plurality of values, the reading corresponding to a tension on a pull cable or a linear displacement of an end of a pull cable. A processing device is configured to receive the reading, determine whether a value of the reading is outside of a non-tripped value window, a limit edge being a pull threshold value, and responsively generate an output signal indicative of a cable pull event. Other features and improvements are described.
    Type: Grant
    Filed: November 17, 2015
    Date of Patent: November 21, 2017
    Assignee: Rockwell Automation Technologies, Inc.
    Inventors: Andrew L Tsang, Burt Sacherski, Steven Robert Tambeau, Arvind Ananthanarayanan, James Edward Dogul, Todd Bubar
  • Publication number: 20170248481
    Abstract: An apparatus for an imbalance test includes a strain measurement module that measures a strain voltage across terminals of a strain gauge. The strain voltage is representative of an amount of force on the strain gauge. The apparatus includes a test measurement module that measures a test voltage across the terminals of the strain gauge while a test resistor is connected in parallel with a resistor of the strain gauge. The test resistor is connected while the test measurement module measures the test voltage and is disconnected while the strain module measures strain voltage. The apparatus includes an average module that calculates an average strain voltage from two strain voltage measurements. The strain voltages are measured preceding and after the test voltage measurement. The apparatus includes a difference module that determines a difference voltage. The difference voltage is a difference between the average strain voltage and the test voltage.
    Type: Application
    Filed: May 11, 2017
    Publication date: August 31, 2017
    Inventors: TODD BUBAR, ANDREW L. TSANG, BURT SACHERSKI, STEVEN ROBERT TAMBEAU, ARVIND ANANTHANARAYANAN, JAMES EDWARD DOGUL, TIMOTHY P. WOLFE
  • Publication number: 20170140890
    Abstract: A cable pull switch includes a polychotomous sensor configured to provide a reading of at least one of a plurality of values, the reading corresponding to a tension on a pull cable or a linear displacement of an end of a pull cable. A processing device is configured to receive the reading, determine whether a value of the reading is outside of a non-tripped value window, a limit edge being a pull threshold value, and responsively generate an output signal indicative of a cable pull event. Other features and improvements are described.
    Type: Application
    Filed: November 17, 2015
    Publication date: May 18, 2017
    Inventors: ANDREW L. TSANG, BURT SACHERSKI, STEVEN ROBERT TAMBEAU, ARVIND ANANTHANARAYANAN, JAMES EDWARD DOGUL, TODD BUBAR
  • Publication number: 20160367428
    Abstract: A robotic device for operation in association with an appendage of a user, wherein the appendage of the user has an endpoint, the robotic device including: a base; and a robotic arm attached to the base and having an endpoint, the robotic arm having at least two active degrees of freedom relative to the base and being configured so that when the base is appropriately positioned relative to a user, the reference frame of the robotic device is oriented generally similarly to the reference frame of the user and motions of the endpoint of the appendage of the user are mimicked by motions of the endpoint of the robotic arm.
    Type: Application
    Filed: September 29, 2014
    Publication date: December 22, 2016
    Inventors: William T. Townsend, David Wilkinson, Alexander Jenko, Julian Leland, Arvind Ananthanarayanan, James Patton