Patents by Inventor Elena Ishkov

Elena Ishkov 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: 10863816
    Abstract: Systems and methods for computing a hair-coloring composition (HCC) or for dispensing ingredients for the HCC are disclosed herein. In some embodiments, the system comprises a hair-treatment objective-prioritization user interface (HTOP UI) for receiving multi-objective relative-importance data describing a relative importance of different hair-treatment objectives (e.g. immediate post-treatment accuracy versus auxiliary goals, or one auxiliary goal versus another) for a potential hair-coloring treatment. In some embodiments, a hair-coloring-composition (HCC) prediction-engine is responsive to input received via the HTOP UI to compute, from the initial hair-state data and from the target color-state, a customized hair-coloring composition predicted to transform a color state of the user's hair from the initial color state to the target color state. This may be performed according to the multi-objective relative-importance data.
    Type: Grant
    Filed: November 4, 2016
    Date of Patent: December 15, 2020
    Assignee: COLORIGHT LTD.
    Inventors: Efraim Miklatzky, Sagiv Lustig, Elena Ishkov, Eliyahu Benny, Hila Sela, Roy Frenkel
  • Patent number: 10416078
    Abstract: An apparatus and method for customized hair-coloring is disclosed. In some embodiments the method comprises: a. performing a plurality of light-scattering measurements upon a sample of hair such that for each light-scattering measurement, the sample of hair is illuminated from a different respective direction; b. comparing the results of the light-scattering measurements; c. in accordance with results of the comparing, computing an initial damage-state of hair of the sample by comparing the results of the light-scattering measurements; d. obtaining an initial color-state of the hair of the sample; and e. computing a hair-coloring composition that is predicted to transform the hair sample from the initial color-state to a target color-state such that in response to a determining of a greater (lesser) extent of initial damage, a concentration of artificial-colorant(s) within the computed coloring composition is reduced (increased).
    Type: Grant
    Filed: June 29, 2018
    Date of Patent: September 17, 2019
    Assignee: COLORIGHT LTD.
    Inventors: Efraim Miklatzky, Elena Ishkov, Daniel Mandelik, Gilad Davara
  • Patent number: 10302495
    Abstract: The present disclosure relates to hair readers, dispenser devices, and related systems and methods. For example the present application relates to a method of optically acquiring data from keratinous fibers, the method comprising: a. illuminating the keratinous fibers such that light reflected and/or deflected and/or transmitted by the fibers is incident upon a detector and converted into electrical signals by the detector; and b. computing, from electrical signals, a plurality of spectra of the keratinous fibers such that each spectrum of the plurality of spectra respectively corresponds to (i) a different respective portion of the keratinous fibers and/or (ii) material within a different sub-region of space within which at least a portion of the keratinous fibers are disposed.
    Type: Grant
    Filed: September 28, 2014
    Date of Patent: May 28, 2019
    Assignee: ColoRight Ltd.
    Inventors: Efraim Miklatzky, Daniel Mandelik, Gilad Davara, Eliyahu Benny, Oded Livneh, Elena Ishkov, Uri Zadok, Lior Shahar
  • Publication number: 20190059560
    Abstract: Systems and methods for computing a hair-coloring composition (HCC) or for dispensing ingredients for the HCC are disclosed herein. In some embodiments, the system comprises a hair-treatment objective-prioritization user interface (HTOP UI) for receiving multi-objective relative-importance data describing a relative importance of different hair-treatment objectives (e.g. immediate post-treatment accuracy versus auxiliary goals, or one auxiliary goal versus another) for a potential hair-coloring treatment. In some embodiments, a hair-coloring-composition (HCC) prediction-engine is responsive to input received via the HTOP UI to compute, from the initial hair-state data and from the target color-state, a customized hair-coloring composition predicted to transform a color state of the user's hair from the initial color state to the target color state. This may be performed according to the multi-objective relative-importance data.
    Type: Application
    Filed: November 4, 2016
    Publication date: February 28, 2019
    Applicant: COLORIGHT LTD.
    Inventors: Efraim MIKLATZKY, Sagiv LUSTIG, Elena ISHKOV, Eliyahu BENNY, Hila SELA, Roy FRENKEL
  • Publication number: 20180321146
    Abstract: An apparatus and method for customized hair-coloring is disclosed. In some embodiments the method comprises: a. performing a plurality of light-scattering measurements upon a sample of hair such that for each light-scattering measurement, the sample of hair is illuminated from a different respective direction; b. comparing the results of the light-scattering measurements; c. in accordance with results of the comparing, computing an initial damage-state of hair of the sample by comparing the results of the light-scattering measurements; d. obtaining an initial color-state of the hair of the sample; and e. computing a hair-coloring composition that is predicted to transform the hair sample from the initial color-state to a target color-state such that in response to a determining of a greater (lesser) extent of initial damage, a concentration of artificial-colorant(s) within the computed coloring composition is reduced (increased).
    Type: Application
    Filed: June 29, 2018
    Publication date: November 8, 2018
    Applicant: COLORIGHT LTD.
    Inventors: Efraim MIKLATZKY, Elena ISHKOV, Daniel MANDELIK, Gilad DAVARA
  • Patent number: 10046183
    Abstract: Novel systems and methods for performing treatment (e.g., coloration) of keratinous fibers are disclosed. The methods and systems utilize one or more of a dispensing device which is configured to provide customized composition for treating keratinous fibers (e.g., a coloring composition), optionally formed from tablets; an optical reader, for obtaining sufficient characteristics of the keratinous fibers to make a realistic prediction of the outcome of a treatment (e.g., coloring treatment); a computational units for predicting an outcome of a treatment, optionally being interfaced with the dispensing device and for selecting a customized treatment; and tablet formulations which are useful in preparing customized composition for treating keratinous fibers. Further disclosed are rapidly disintegrating tablets for use in the preparation of compositions for treating keratinous fibers.
    Type: Grant
    Filed: April 18, 2016
    Date of Patent: August 14, 2018
    Assignee: COLORIGHT LTD.
    Inventors: Benzion Landa, Efraim Miklatzky, Sagi Abramovich, Yacov Mazuz, Anton Krassilnikov, Eliyahu Benny, Gilad Davara, Chen Ofek, Elena Ishkov, Lior Shahar, Daniel Mandelik, Uri Zadok
  • Patent number: 10012588
    Abstract: An apparatus and method for customized hair-coloring is disclosed. In some embodiments the method comprises: a. performing a plurality of light-scattering measurements upon a sample of hair such that for each light-scattering measurement, the sample of hair is illuminated from a different respective direction; b. comparing the results of the light-scattering measurements; c. in accordance with results of the comparing, computing an initial damage-state of hair of the sample by comparing the results of the light-scattering measurements; d. obtaining an initial color-state of the hair of the sample; and e. computing a hair-coloring composition that is predicted to transform the hair sample from the initial color-state to a target color-state such that in response to a determining of a greater (lesser) extent of initial damage, a concentration of artificial-colorant(s) within the computed coloring composition is reduced (increased).
    Type: Grant
    Filed: April 27, 2015
    Date of Patent: July 3, 2018
    Assignee: COLORIGHT LTD.
    Inventors: Efraim Miklatzky, Elena Ishkov, Daniel Mandelik, Gilad Davara
  • Patent number: 9999790
    Abstract: Novel systems and methods for performing treatment (e.g., coloration) of keratinous fibers are disclosed. The methods and systems utilize one or more of a dispensing device which is configured to provide customized composition for treating keratinous fibers (e.g., a coloring composition), optionally formed from tablets; an optical reader, for obtaining sufficient characteristics of the keratinous fibers to make a realistic prediction of the outcome of a treatment (e.g., coloring treatment); a computational units for predicting an outcome of a treatment, optionally being interfaced with the dispensing device and for selecting a customized treatment; and tablet formulations which are useful in preparing customized composition for treating keratinous fibers. Further disclosed are rapidly disintegrating tablets for use in the preparation of compositions for treating keratinous fibers.
    Type: Grant
    Filed: April 18, 2016
    Date of Patent: June 19, 2018
    Assignee: COLORIGHT LTD.
    Inventors: Benzion Landa, Efraim Miklatzky, Sagi Abramovich, Yacov Mazuz, Anton Krassilnikov, Eliyahu Benny, Gilad Davara, Chen Ofek, Elena Ishkov, Lior Shahar, Daniel Mandelik, Uri Zadok
  • Patent number: 9844687
    Abstract: Novel systems and methods for performing treatment (e.g., coloration) of keratinous fibers are disclosed. The methods and systems utilize one or more of a dispensing device which is configured to provide customized composition for treating keratinous fibers (e.g., a coloring composition), optionally formed from tablets; an optical reader, for obtaining sufficient characteristics of the keratinous fibers to make a realistic prediction of the outcome of a treatment (e.g., coloring treatment); a computational units for predicting an outcome of a treatment, optionally being interfaced with the dispensing device and for selecting a customized treatment; and tablet formulations which are useful in preparing customized composition for treating keratinous fibers. Further disclosed are rapidly disintegrating tablets for use in the preparation of compositions for treating keratinous fibers.
    Type: Grant
    Filed: November 23, 2015
    Date of Patent: December 19, 2017
    Assignee: COLORIGHT LTD.
    Inventors: Benzion Landa, Efraim Miklatzky, Sagi Abramovich, Yacov Mazuz, Anton Krassilnikov, Eliyahu Benny, Gilad Davara, Chen Ofek, Elena Ishkov, Lior Shahar, Daniel Mandelik
  • Publication number: 20170038297
    Abstract: An apparatus and method for customized hair-coloring is disclosed. In some embodiments the method comprises: a. performing a plurality of light-scattering measurements upon a sample of hair such that for each light-scattering measurement, the sample of hair is illuminated from a different respective direction; b. comparing the results of the light-scattering measurements; c. in accordance with results of the comparing, computing an initial damage-state of hair of the sample by comparing the results of the light-scattering measurements; d. obtaining an initial color-state of the hair of the sample; and e. computing a hair-coloring composition that is predicted to transform the hair sample from the initial color-state to a target color-state such that in response to a determining of a greater (lesser) extent of initial damage, a concentration of artificial- colorant(s) within the computed coloring composition is reduced (increased).
    Type: Application
    Filed: April 27, 2015
    Publication date: February 9, 2017
    Applicant: Coloright LTD.
    Inventors: Efraim MIKLATZKY, Elena ISHKOV, Daniel MANDELIK, Gilad DAVARA
  • Publication number: 20160339274
    Abstract: Novel systems and methods for performing treatment (e.g., coloration) of keratinous fibers are disclosed. The methods and systems utilize one or more of a dispensing device which is configured to provide customized composition for treating keratinous fibers (e.g., a coloring composition), optionally formed from tablets; an optical reader, for obtaining sufficient characteristics of the keratinous fibers to make a realistic prediction of the outcome of a treatment (e.g., coloring treatment); a computational units for predicting an outcome of a treatment, optionally being interfaced with the dispensing device and for selecting a customized treatment; and tablet formulations which are useful in preparing customized composition for treating keratinous fibers. Further disclosed are rapidly disintegrating tablets for use in the preparation of compositions for treating keratinous fibers.
    Type: Application
    Filed: April 18, 2016
    Publication date: November 24, 2016
    Inventors: Benzion LANDA, Efraim MIKLATZKY, Sagi ABRAMOVICH, Yacov MAZUZ, Anton KRASSILNIKOV, Eliyahu BENNY, Gilad DAVARA, Chen OFEK, Elena ISHKOV, Lior SHAHAR, Daniel MANDELIK, Uri ZADOK
  • Publication number: 20160209272
    Abstract: The present disclosure relates to hair readers, dispenser devices, and related systems and methods. For example the present application relates to a method of optically acquiring data from keratinous fibers, the method comprising: a. illuminating the keratinous fibers such that light reflected and/or deflected and/or transmitted by the fibers is incident upon a detector and converted into electrical signals by the detector; and b. computing, from electrical signals, a plurality of spectra of the keratinous fibers such that each spectrum of the plurality of spectra respectively corresponds to (i) a different respective portion of the keratinous fibers and/or (ii) material within a different sub-region of space within which at least a portion of the keratinous fibers are disposed.
    Type: Application
    Filed: September 8, 2014
    Publication date: July 21, 2016
    Inventors: Efraim MIKLATZKY, Daniel MANDELIK, Gilad DAVARA, Eliyahu BENNY, Oded LIVNEH, Elena ISHKOV, Uri ZADOK, Lior SHAHAR
  • Publication number: 20160175620
    Abstract: Novel systems and methods for performing treatment (e.g., coloration) of keratinous fibers are disclosed. The methods and systems utilize one or more of a dispensing device which is configured to provide customized composition for treating keratinous fibers (e.g., a coloring composition), optionally formed from tablets; an optical reader, for obtaining sufficient characteristics of the keratinous fibers to make a realistic prediction of the outcome of a treatment (e.g., coloring treatment); a computational units for predicting an outcome of a treatment, optionally being interfaced with the dispensing device and for selecting a customized treatment; and tablet formulations which are useful in preparing customized composition for treating keratinous fibers. Further disclosed are rapidly disintegrating tablets for use in the preparation of compositions for treating keratinous fibers.
    Type: Application
    Filed: November 23, 2015
    Publication date: June 23, 2016
    Inventors: Benzion LANDA, Efraim MIKLATZKY, Sagi ABRAMOVICH, Yacov MAZUZ, Anton KRASSILNIKOV, Eliyahu BENNY, Gilad DAVARA, Chen OFEK, Elena ISHKOV, Lior SHAHAR, Daniel MANDELIK, Uri ZADOK
  • Patent number: 9316580
    Abstract: Novel systems and methods for performing treatment (e.g., coloration) of keratinous fibers are disclosed. The methods and systems utilize one or more of a dispensing device which is configured to provide customized composition for treating keratinous fibers (e.g., a coloring composition), optionally formed from tablets; an optical reader, for obtaining sufficient characteristics of the keratinous fibers to make a realistic prediction of the outcome of a treatment (e.g., coloring treatment); a computational units for predicting an outcome of a treatment, optionally being interfaced with the dispensing device and for selecting a customized treatment; and tablet formulations which are useful in preparing customized composition for treating keratinous fibers. Further disclosed are rapidly disintegrating tablets for use in the preparation of compositions for treating keratinous fibers.
    Type: Grant
    Filed: September 29, 2014
    Date of Patent: April 19, 2016
    Assignee: COLORIGHT LTD.
    Inventors: Benzion Landa, Efraim Miklatzky, Sagi Abramovich, Yacov Mazuz, Anton Krassilnikov, Eliyahu Benny, Elena Ishkov, Lior Shahar, Daniel Mandelik
  • Publication number: 20150089751
    Abstract: Novel systems and methods for performing treatment (e.g., coloration) of keratinous fibers are disclosed. The methods and systems utilize one or more of a dispensing device which is configured to provide customized composition for treating keratinous fibers (e.g., a coloring composition), optionally formed from tablets; an optical reader, for obtaining sufficient characteristics of the keratinous fibers to make a realistic prediction of the outcome of a treatment (e.g., coloring treatment); a computational units for predicting an outcome of a treatment, optionally being interfaced with the dispensing device and for selecting a customized treatment; and tablet formulations which are useful in preparing customized composition for treating keratinous fibers. Further disclosed are rapidly disintegrating tablets for use in the preparation of compositions for treating keratinous fibers.
    Type: Application
    Filed: September 29, 2014
    Publication date: April 2, 2015
    Inventors: Benzion Landa, Efraim Miklatzky, Sagi Abramovich, Yacov Mazuz, Anton Krassilnikov, Eliyahu Benny, Gilad Davara, Chen Ofek, Elena Ishkov, Lior Shahar, Daniel Mandelik, Uri Zadok
  • Publication number: 20150082553
    Abstract: Novel systems and methods for performing treatment (e.g., coloration) of keratinous fibers are disclosed. The methods and systems utilize one or more of a dispensing device which is configured to provide customized composition for treating keratinous fibers (e.g., a coloring composition), optionally formed from tablets; an optical reader, for obtaining sufficient characteristics of the keratinous fibers to make a realistic prediction of the outcome of a treatment (e.g., coloring treatment); a computational units for predicting an outcome of a treatment, optionally being interfaced with the dispensing device and for selecting a customized treatment; and tablet formulations which are useful in preparing customized composition for treating keratinous fibers. Further disclosed are rapidly disintegrating tablets for use in the preparation of compositions for treating keratinous fibers.
    Type: Application
    Filed: August 29, 2014
    Publication date: March 26, 2015
    Inventors: Benzion LANDA, Ffrain Miiklatzky, Saig Abramovich, Yacov Mazuz, Anton Frassilnikov, Eliyahu BENNY, Gilad DAVARA, Chen OFEK, Elena ISHKOV, Lior SHAHAR, Daniel MANDELIK
  • Publication number: 20140082854
    Abstract: Novel systems and methods for performing treatment (e.g., coloration) of keratinous fibers are disclosed. The methods and systems utilize one or more of a dispensing device which is configured to provide customized composition for treating keratinous fibers (e.g., a coloring composition), optionally formed from tablets; an optical reader, for obtaining sufficient characteristics of the keratinous fibers to make a realistic prediction of the outcome of a treatment (e.g., coloring treatment); a computational units for predicting an outcome of a treatment, optionally being interfaced with the dispensing device and for selecting a customized treatment; and tablet formulations which are useful in preparing customized composition for treating keratinous fibers. Further disclosed are rapidly disintegrating tablets for use in the preparation of compositions for treating keratinous fibers.
    Type: Application
    Filed: March 21, 2012
    Publication date: March 27, 2014
    Applicant: Coloright Ltd.
    Inventors: Benzion Landa, Efraim Miklatzky, Sagi Abramovich, Yacov Mazuz, Anton Krassilnikov, Eliyahu Benny, Gilad Davara, Chen Ofek, Elena Ishkov, Lior Shahar, Daniel Mandelik