Patents by Inventor Toby OLSHANETSKY

Toby OLSHANETSKY 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: 11321224
    Abstract: A proof-of-concept (PoC) method comprising: on a networked platform, serving a population of enterprise end-users and a population of ISV end-users, on which PoCs are run, providing a PoC-defining user interface via which at least one enterprise end-user generates a definition of at least one PoC; and using a processor to automatically assess whether an individual machine learning model embodied in a body of code of an individual software product registered for an individual PoC, is suitable for the individual PoC as defined by the definition.
    Type: Grant
    Filed: September 24, 2020
    Date of Patent: May 3, 2022
    Assignee: PROOV SYSTEMS LTD
    Inventors: Yury Kupitman, Alexey Sapozhnikov, Toby Olshanetsky
  • Patent number: 10992551
    Abstract: A system comprising a platform configured for communicating with enterprise end-users and for allowing the enterprise end-users to perform proof-of-concept testing for startups which provide respective enterprises with software products to be evaluated by the respective enterprises, the platform including processor functionality configured to analyze available information on enterprise data and, accordingly, generate metadata characterizing the enterprise data; generate artificial enterprise data conforming to the metadata; analyze available information on enterprise APIs and, accordingly, generate metadata characterizing the enterprise APIs; and generate at least one artificial API conforming to that metadata.
    Type: Grant
    Filed: May 29, 2019
    Date of Patent: April 27, 2021
    Assignee: PROOV SYSTEMS LTD.
    Inventors: Alexey Sapozhnikov, Toby Olshanetsky, Israel Ben Tal
  • Publication number: 20210004320
    Abstract: A proof-of-concept (PoC) method comprising: on a networked platform, serving a population of enterprise end-users and a population of ISV end-users, on which PoCs are run, providing a PoC-defining user interface via which at least one enterprise end-user generates a definition of at least one PoC; and using a processor to automatically assess whether an individual machine learning model embodied in a body of code of an individual software product registered for an individual PoC, is suitable for the individual PoC as defined by the definition.
    Type: Application
    Filed: September 24, 2020
    Publication date: January 7, 2021
    Inventors: Yury KUPITMAN, Alexey SAPOZHNIKOV, Toby OLSHANETSKY
  • Patent number: 10860462
    Abstract: A method for running proof-of-concepts for software solutions, including receiving, from an enterprise, an indication of network locations of servers in a production environment for a software solution selected from among plural candidates software solutions participating in a proof-of-concept running in a proof-of-concept (aka PoC) environment on a PoC platform; providing at least one recording, uploaded onto the platform, of traffic between the servers in the production environment; providing a mapping of the network locations to, respectively, PoC platform local network addresses of servers within the PoC environment; adapting the recording by replacing each occurrence of an individual one of the network locations, within the recording, with a PoC environment server local network PoC platform address to which the individual one was mapped, thereby to generate at least one adapted file; and replaying the at least one adapted file on the servers within the PoC environment.
    Type: Grant
    Filed: May 7, 2019
    Date of Patent: December 8, 2020
    Assignee: PROOV SYSTEMS LTD.
    Inventors: Yury Kupitman, Alexey Sapozhnikov, Toby Olshanetsky, Israel Ben Tal
  • Patent number: 10817407
    Abstract: A proof-of-concept (PoC) method comprising: on a networked platform, serving a population of enterprise end-users and a population of ISV end-users, on which PoCs are run, providing a PoC-defining user interface via which at least one enterprise end-user generates a definition of at least one PoC; and using a processor to automatically assess whether an individual machine learning model embodied in a body of code of an individual software product registered for an individual PoC, is suitable for the individual PoC as defined by the definition.
    Type: Grant
    Filed: May 7, 2019
    Date of Patent: October 27, 2020
    Assignee: PROOV SYSTEMS LTD.
    Inventors: Yury Kupitman, Alexey Sapozhnikov, Toby Olshanetsky
  • Publication number: 20200293714
    Abstract: An artificial document generation method generating a larger set of artificial documents which mimics a smaller set of source documents. The method may include deriving metadata parameters from source documents, each parameter characterizing the source documents and having more than one possible value. The deriving may include: determining which ratio of the source documents has each of the values, defining metadata ratios characteristic of the source documents; training a model, on the source documents, to output artificial documents; and running the model as trained thereby to output artificial documents and overriding at least some words generated by the model in the draft artificial documents. Overriding is configured to ensure that at least some of the ratios characteristic of the smaller set of source documents are retained in the larger set.
    Type: Application
    Filed: March 12, 2020
    Publication date: September 17, 2020
    Inventors: Toby OLSHANETSKY, Alexey SAPOZHNIKOV, Israel BEN TAL, Yury KUPITMAN
  • Patent number: 10552292
    Abstract: A computerized computer software pilot evaluation method for quantifying performance of a first population of start-up end-users, each start-up end-user contending within at least one software pilot defined by, including performing a software task for, an enterprise end-user from among a second population of enterprise end-users, the method comprising: generating at least one neural network model, using a processor, for at least one startup server participating in at least one enterprise's pilot (aka computer software pilot), the computer software pilot comprising a task to be performed by each of at least one startup server participating in the pilot, and using the at least one neural network model to predict at least one derivable kpi from measurable kpi's generated by the startup server within the enterprise's pilot.
    Type: Grant
    Filed: May 4, 2017
    Date of Patent: February 4, 2020
    Assignee: PROOV SYSTEMS LTD.
    Inventors: Toby Olshanetsky, Alexey Sapozhnikov, Israel Ben Tal
  • Patent number: 10540264
    Abstract: An end-to-end “pilot as service” system for software pilot testing, comprising a server including at least one processor and operative for generating a set of software testing environment/s simultaneously serving plural clients from among a first plurality of enterprise clients, the environment being operative for concurrently running plural proof-of-concept tests for respective plural software products each being tested (“pilots”), on behalf of an individual start-up client from among a second plurality of start-up clients, by an individual one of the population of enterprise clients; a registration functionality, on the processor, operative for pre-registering at least one of: enterprise clients from among the first plurality of enterprise clients, and start-up clients from among the second plurality of start-up clients; and a dashboard functionality, on the processor, operative for presenting at least one result of at least one proof-of-concept test to each client which has pre-registered using said regist
    Type: Grant
    Filed: October 16, 2018
    Date of Patent: January 21, 2020
    Assignee: PROOV SYSTEMS LTD.
    Inventors: Alexey Sapozhnikov, Toby Olshanetsky
  • Publication number: 20190340110
    Abstract: A proof-of-concept (PoC) method comprising: on a networked platform, serving a population of enterprise end-users and a population of ISV end-users, on which PoCs are run, providing a PoC-defining user interface via which at least one enterprise end-user generates a definition of at least one PoC; and using a processor to automatically assess whether an individual machine learning model embodied in a body of code of an individual software product registered for an individual PoC, is suitable for the individual PoC as defined by the definition.
    Type: Application
    Filed: May 7, 2019
    Publication date: November 7, 2019
    Inventors: Yury KUPITMAN, Alexey SAPOZHNIKOV, Toby OLSHANETSKY
  • Publication number: 20190340101
    Abstract: A method for running proof-of-concepts for software solutions, including receiving, from an enterprise, an indication of network locations of servers in a production environment for a software solution selected from among plural candidates software solutions participating in a proof-of-concept running in a proof-of-concept (aka PoC) environment on a PoC platform; providing at least one recording, uploaded onto the platform, of traffic between the servers in the production environment; providing a mapping of the network locations to, respectively, PoC platform local network addresses of servers within the PoC environment; adapting the recording by replacing each occurrence of an individual one of the network locations, within the recording, with a PoC environment server local network PoC platform address to which the individual one was mapped, thereby to generate at least one adapted file; and replaying the at least one adapted file on the servers within the PoC environment.
    Type: Application
    Filed: May 7, 2019
    Publication date: November 7, 2019
    Inventors: Yury KUPITMAN, Alexey SAPOZHNIKOV, Toby OLSHANETSKY, Israel BEN TAL
  • Publication number: 20190280947
    Abstract: A system comprising a platform configured for communicating with enterprise end-users and for allowing the enterprise end-users to perform proof-of-concept testing for startups which provide respective enterprises with software products to be evaluated by the respective enterprises, the platform including processor functionality configured to analyze available information on enterprise data and, accordingly, generate metadata characterizing the enterprise data; generate artificial enterprise data conforming to the metadata; analyze available information on enterprise APIs and, accordingly, generate metadata characterizing the enterprise APIs; and generate at least one artificial API conforming to that metadata.
    Type: Application
    Filed: May 29, 2019
    Publication date: September 12, 2019
    Inventors: Alexey SAPOZHNIKOV, Toby OLSHANETSKY, Israel BEN TAL
  • Patent number: 10348578
    Abstract: A system comprising a platform configured for communicating with enterprise end-users and for allowing the enterprise end-users to perform proof-of-concept testing for startups which provide respective enterprises with software products to be evaluated by the respective enterprises, the platform including processor functionality configured to analyze available information on enterprise data and, accordingly, generate metadata characterizing the enterprise data; generate artificial enterprise data conforming to the metadata; analyze available information on enterprise APIs and, accordingly, generate metadata characterizing the enterprise APIs; and generate at least one artificial API conforming to that metadata.
    Type: Grant
    Filed: October 18, 2017
    Date of Patent: July 9, 2019
    Assignee: PROOV SYSTEMS LTD.
    Inventors: Alexey Sapozhnikov, Toby Olshanetsky, Israel Ben Tal
  • Publication number: 20190114251
    Abstract: A system comprising a platform configured for communicating with enterprise end-users and for allowing the enterprise end-users to perform proof-of-concept testing for startups which provide respective enterprises with software products to be evaluated by the respective enterprises, the platform including processor functionality configured to analyze available information on enterprise data and, accordingly, generate metadata characterizing the enterprise data; generate artificial enterprise data conforming to the metadata; analyze available information on enterprise APIs and, accordingly, generate metadata characterizing the enterprise APIs; and generate at least one artificial API conforming to that metadata.
    Type: Application
    Filed: October 18, 2017
    Publication date: April 18, 2019
    Inventors: Alexey SAPOZHNIKOV, Toby OLSHANETSKY, Israel BEN TAL
  • Publication number: 20190050321
    Abstract: An end-to-end “pilot as service” system for software pilot testing, comprising a server including at least one processor and operative for generating a set of software testing environment/s simultaneously serving plural clients from among a first plurality of enterprise clients, the environment being operative for concurrently running plural proof-of-concept tests for respective plural software products each being tested (“pilots”), on behalf of an individual start-up client from among a second plurality of start-up clients, by an individual one of the population of enterprise clients; a registration functionality, on the processor, operative for pre-registering at least one of: enterprise clients from among the first plurality of enterprise clients, and start-up clients from among the second plurality of start-up clients; and a dashboard functionality, on the processor, operative for presenting at least one result of at least one proof-of-concept test to each client which has pre-registered using said regist
    Type: Application
    Filed: October 16, 2018
    Publication date: February 14, 2019
    Inventors: Alexey SAPOZHNIKOV, Toby OLSHANETSKY
  • Patent number: 10140206
    Abstract: An end-to-end “pilot as service” system for software pilot testing, comprising a server including at least one processor and operative for generating a set of software testing environment/s simultaneously serving plural clients from among a first plurality of enterprise clients, the environment being operative for concurrently running plural proof-of-concept tests for respective plural software products each being tested (“pilots”), on behalf of an individual start-up client from among a second plurality of start-up clients, by an individual one of the population of enterprise clients; a registration functionality, on the processor, operative for pre-registering at least one of: enterprise clients from among the first plurality of enterprise clients, and start-up clients from among the second plurality of start-up clients; and a dashboard functionality, on the processor, operative for presenting at least one result of at least one proof-of-concept test to each client which has pre-registered using said regist
    Type: Grant
    Filed: November 9, 2016
    Date of Patent: November 27, 2018
    Assignee: PROOV SYSTEMS LTD.
    Inventors: Alexey Sapozhnikov, Toby Olshanetsky
  • Publication number: 20180053134
    Abstract: A computerized computer software pilot evaluation method for quantifying performance of a first population of start-up end-users, each start-up end-user contending within at least one software pilot defined by, including performing a software task for, an enterprise end-user from among a second population of enterprise end-users, the method comprising: generating at least one neural network model, using a processor, for at least one startup server participating in at least one enterprise's pilot (aka computer software pilot), the computer software pilot comprising a task to be performed by each of at least one startup server participating in the pilot, and using the at least one neural network model to predict at least one derivable kpi from measurable kpi's generated by the startup server within the enterprise's pilot.
    Type: Application
    Filed: May 4, 2017
    Publication date: February 22, 2018
    Inventors: Toby OLSHANETSKY, Alexey SAPOZHNIKOV, Israel BEN TAL
  • Publication number: 20170139816
    Abstract: An end-to-end “pilot as service” system for software pilot testing, comprising a server including at least one processor and operative for generating a set of software testing environment/s simultaneously serving plural clients from among a first plurality of enterprise clients, the environment being operative for concurrently running plural proof-of-concept tests for respective plural software products each being tested (“pilots”), on behalf of an individual start-up client from among a second plurality of start-up clients, by an individual one of the population of enterprise clients; a registration functionality, on the processor, operative for pre-registering at least one of: enterprise clients from among the first plurality of enterprise clients, and start-up clients from among the second plurality of start-up clients; and a dashboard functionality, on the processor, operative for presenting at least one result of at least one proof-of-concept test to each client which has pre-registered using said regist
    Type: Application
    Filed: November 9, 2016
    Publication date: May 18, 2017
    Inventors: Alexey SAPOZHNIKOV, Toby OLSHANETSKY