Patents by Inventor Shan DOU
Shan DOU 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).
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Publication number: 20260110665Abstract: Systems, techniques, and computer-implemented processes are provided for acoustic signal based analysis of thin-films, electrode coatings, and other components of batteries. Data analytics on signals obtained by ultrasound excitation of materials is used to analyze electrode coating parameters, analyzing separators, and other battery components. Using the disclosed techniques in battery manufacturing and production can lead to reduction in wastage of damaged/scrapped battery cells and shorten production time.Type: ApplicationFiled: July 25, 2025Publication date: April 23, 2026Applicant: Liminal Insights, Inc.Inventors: Shaurjo BISWAS, Shan DOU, Aleksandr KIESSLING, Andrew HSIEH, Barry VAN TASSELL, Marc JUZKOW
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Patent number: 12493281Abstract: Systems, methods, and computer-readable media are provided for controlling a battery manufacturing process. For instance, signal based analysis that can include audio signal analysis can be performed during a first process step of a battery manufacturing process. Based on the signal based analysis, at least one adjustment can be determined for a second process step of the battery manufacturing process. Information associated with the at least one adjustment can be provided to the second process step.Type: GrantFiled: May 21, 2021Date of Patent: December 9, 2025Assignee: LIMINAL INSIGHTS, INC.Inventors: Shaurjo Biswas, Andrew Hsieh, Marc Juzkow, Shan Dou, Barry Van Tassell
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Patent number: 12399156Abstract: Systems, techniques, and computer-implemented processes are provided for acoustic signal based analysis of thin-films, electrode coatings, and other components of batteries. Data analytics on signals obtained by ultrasound excitation of materials is used to analyze electrode coating parameters, analyzing separators, and other battery components. Using the disclosed techniques in battery manufacturing and production can lead to reduction in wastage of damaged/scrapped battery cells and shorten production time.Type: GrantFiled: May 6, 2021Date of Patent: August 26, 2025Assignee: LIMINAL INSIGHTS, INC.Inventors: Shaurjo Biswas, Shan Dou, Aleksandr Kiessling, Andrew Hsieh, Barry Van Tassell, Marc Juzkow
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Patent number: 12368193Abstract: Systems and methods for acoustic signal based analysis, include obtaining acoustic response signal data of at least a portion of a battery cell, the acoustic response signal data comprising waveforms generated by transmitting one or more acoustic excitation signals into at least the portion of the battery cell and recording response vibration signals to the one or more acoustic excitation signals. One or more metrics are determined from at least the acoustic response signal data, the one or more metrics being determined based on correlation of the one or more metrics to one or more characteristics of battery cells and a reference model is generated from the one or more metrics. A test battery can be evaluated using the reference model. Actionable insights or recommendations can be generated based on the evaluation. The reference model can also be updated based on the evaluation.Type: GrantFiled: December 19, 2023Date of Patent: July 22, 2025Assignee: LIMINAL INSIGHTS, INC.Inventors: Barry J. Van Tassell, Shan Dou, Shaurjo Biswas, Andrew G. Hsieh, Andrew M. Raphael
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Publication number: 20240413417Abstract: Systems and methods for acoustic signal based analysis, include obtaining acoustic response signal data of at least a portion of a battery cell, the acoustic response signal data comprising waveforms generated by transmitting one or more acoustic excitation signals into at least the portion of the battery cell and recording response vibration signals to the one or more acoustic excitation signals. One or more metrics are determined from at least the acoustic response signal data, the one or more metrics being determined based on correlation of the one or more metrics to one or more characteristics of battery cells and a reference model is generated from the one or more metrics. A test battery can be evaluated using the reference model. Actionable insights or recommendations can be generated based on the evaluation. The reference model can also be updated based on the evaluation.Type: ApplicationFiled: December 19, 2023Publication date: December 12, 2024Applicant: Liminal Insights, Inc.Inventors: Barry J. VAN TASSELL, Shan DOU, Shaurjo BISWAS, Andrew G. HSIEH, Andrew M. RAPHAEL
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Patent number: 11855265Abstract: Systems and methods for acoustic signal based analysis, include obtaining acoustic response signal data of at least a portion of a battery cell, the acoustic response signal data comprising waveforms generated by transmitting one or more acoustic excitation signals into at least the portion of the battery cell and recording response vibration signals to the one or more acoustic excitation signals. One or more metrics are determined from at least the acoustic response signal data, the one or more metrics being determined based on correlation of the one or more metrics to one or more characteristics of battery cells and a reference model is generated from the one or more metrics. A test battery can be evaluated using the reference model. Actionable insights or recommendations can be generated based on the evaluation. The reference model can also be updated based on the evaluation.Type: GrantFiled: December 4, 2020Date of Patent: December 26, 2023Assignee: LIMINAL INSIGHTS, INC.Inventors: Barry J. Van Tassell, Shan Dou, Shaurjo Biswas, Andrew G. Hsieh, Andrew M. Raphael
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Publication number: 20230221285Abstract: Systems and techniques for measuring process characteristics including electrolyte distribution in a battery cell. A non-destructive method for analyzing a battery cell includes determining acoustic features at two or more locations of the battery cell, the acoustic features based on one or more of acoustic signals travelling through at least one or more portions of the battery cell during one or more points in time or responses to the acoustic signals obtained during one or more points in time, wherein the one or more points in time correspond to one or more stages of electrolyte distribution in the battery cell. One or more characteristics of the battery cell are determined based on the acoustic features at the two or more locations of the battery cell.Type: ApplicationFiled: March 6, 2023Publication date: July 13, 2023Inventors: Shan Dou, Andrew G. Hsieh, Shaurjo Biswas, Barry J. Van Tassell, Elizabeth M. Lee, Dennis Yu, Jason Y. Yu
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Patent number: 11600870Abstract: Systems and techniques for measuring process characteristics including electrolyte distribution in a battery cell. A non-destructive method for analyzing a battery cell includes determining acoustic features at two or more locations of the battery cell, the acoustic features based on one or more of acoustic signals travelling through at least one or more portions of the battery cell during one or more points in time or responses to the acoustic signals obtained during one or more points in time, wherein the one or more points in time correspond to one or more stages of electrolyte distribution in the battery cell. One or more characteristics of the battery cell are determined based on the acoustic features at the two or more locations of the battery cell.Type: GrantFiled: March 23, 2020Date of Patent: March 7, 2023Assignee: Liminal Insights, Inc.Inventors: Shan Dou, Andrew G. Hsieh, Shaurjo Biswas, Barry J. Van Tassell, Elizabeth M. Lee, Dennis Yu, Jason Y. Yu
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Publication number: 20220206075Abstract: Systems and methods for prediction of state of charge (SOH), state of health (SOC) and other characteristics of batteries using acoustic signals, includes determining acoustic data at two or more states of charge and determining a reduced acoustic data set representative of the acoustic data at the two or more states of charge. The reduced acoustic data set includes time of flight (TOF) shift, total signal amplitude, or other data points related to the states of charge. Machine learning models use at least the reduced acoustic dataset in conjunction with non-acoustic data such as voltage and temperature for predicting the characteristics of any other independent battery.Type: ApplicationFiled: December 6, 2021Publication date: June 30, 2022Inventors: Daniel STEINGART, Greg DAVIES, Shaurjo BISWAS, Andrew HSIEH, Barry VAN TASSELL, Thomas HODSON, Shan DOU
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Patent number: 11193979Abstract: Systems and methods for prediction of state of charge (SOH), state of health (SOC) and other characteristics of batteries using acoustic signals, includes determining acoustic data at two or more states of charge and determining a reduced acoustic data set representative of the acoustic data at the two or more states of charge. The reduced acoustic data set includes time of flight (TOF) shift, total signal amplitude, or other data points related to the states of charge. Machine learning models use at least the reduced acoustic dataset in conjunction with non-acoustic data such as voltage and temperature for predicting the characteristics of any other independent battery.Type: GrantFiled: August 30, 2018Date of Patent: December 7, 2021Assignees: Feasible, Inc., The Trustees of Princeton UniversityInventors: Daniel A. Steingart, Greg Davies, Shaurjo Biswas, Andrew G. Hsieh, Barry Van Tassell, Thomas Hodson, Shan Dou
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Publication number: 20210365009Abstract: Systems, methods, and computer-readable media are provided for controlling a battery manufacturing process. For instance, signal based analysis that can include audio signal analysis can be performed during a first process step of a battery manufacturing process. Based on the signal based analysis, at least one adjustment can be determined for a second process step of the battery manufacturing process. Information associated with the at least one adjustment can be provided to the second process step.Type: ApplicationFiled: May 21, 2021Publication date: November 25, 2021Inventors: Shaurjo BISWAS, Andrew HSIEH, Marc JUZKOW, Shan DOU, Barry VAN TASSELL
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Publication number: 20210350818Abstract: Systems, techniques, and computer-implemented processes are provided for acoustic signal based analysis of thin-films, electrode coatings, and other components of batteries. Data analytics on signals obtained by ultrasound excitation of materials is used to analyze electrode coating parameters, analyzing separators, and other battery components. Using the disclosed techniques in battery manufacturing and production can lead to reduction in wastage of damaged/scrapped battery cells and shorten production time.Type: ApplicationFiled: May 6, 2021Publication date: November 11, 2021Inventors: Shaurjo BISWAS, Shan DOU, Aleksandr KIESSLING, Andrew HSIEH, Barry VAN TASSELL, Marc JUZKOW
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Publication number: 20210175553Abstract: Systems and methods for acoustic signal based analysis, include obtaining acoustic response signal data of at least a portion of a battery cell, the acoustic response signal data comprising waveforms generated by transmitting one or more acoustic excitation signals into at least the portion of the battery cell and recording response vibration signals to the one or more acoustic excitation signals. One or more metrics are determined from at least the acoustic response signal data, the one or more metrics being determined based on correlation of the one or more metrics to one or more characteristics of battery cells and a reference model is generated from the one or more metrics. A test battery can be evaluated using the reference model. Actionable insights or recommendations can be generated based on the evaluation. The reference model can also be updated based on the evaluation.Type: ApplicationFiled: December 4, 2020Publication date: June 10, 2021Inventors: Barry J. VAN TASSELL, Shan DOU, Shaurjo BISWAS, Andrew G. HSIEH, Andrew M. RAPHAEL
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Publication number: 20200358147Abstract: Systems and techniques for measuring process characteristics including electrolyte distribution in a battery cell. A non-destructive method for analyzing a battery cell includes determining acoustic features at two or more locations of the battery cell, the acoustic features based on one or more of acoustic signals travelling through at least one or more portions of the battery cell during one or more points in time or responses to the acoustic signals obtained during one or more points in time, wherein the one or more points in time correspond to one or more stages of electrolyte distribution in the battery cell. One or more characteristics of the battery cell are determined based on the acoustic features at the two or more locations of the battery cell.Type: ApplicationFiled: March 23, 2020Publication date: November 12, 2020Inventors: Shan Dou, Andrew G. Hsieh, Shaurjo Biswas, Barry J. Van Tassell, Elizabeth M. Lee, Dennis Yu, Jason Y. Yu
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Publication number: 20190072614Abstract: Systems and methods for prediction of state of charge (SOH), state of health (SOC) and other characteristics of batteries using acoustic signals, includes determining acoustic data at two or more states of charge and determining a reduced acoustic data set representative of the acoustic data at the two or more states of charge. The reduced acoustic data set includes time of flight (TOF) shift, total signal amplitude, or other data points related to the states of charge. Machine learning models use at least the reduced acoustic dataset in conjunction with non-acoustic data such as voltage and temperature for predicting the characteristics of any other independent battery.Type: ApplicationFiled: August 30, 2018Publication date: March 7, 2019Inventors: Daniel A. STEINGART, Greg DAVIES, Shaurjo BISWAS, Andrew G. HSIEH, Barry VAN TASSELL, Thomas HODSON, Shan DOU