Patents by Inventor Niosha Kayhani
Niosha Kayhani 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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Patent number: 11380013Abstract: Techniques are disclosed for performing an initialization process for a set of FOV sensors using a set of initialization modules that are attachable to or integrated with the set of FOV sensors. A vertical distance associated with the set of FOV sensors is detected. An inter-module distance between a first initialization module and a second initialization module is detected. It is determined whether a placement of the second initialization module with respect to the first initialization module is acceptable based on the vertical distance and the inter-module distance. A feedback signal indicating whether the placement is acceptable is generated. The feedback signal is outputted at one or both of the first initialization module and the second initialization module.Type: GrantFiled: August 20, 2020Date of Patent: July 5, 2022Assignee: CUBIC CORPORATIONInventor: Niosha Kayhani
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Publication number: 20210116259Abstract: A method of providing adaptive transit resource allocation may include receiving journey planning information from a mobile device. The method may include generating one or more routes based on the journey planning information. The method may include providing the one or more routes and details associated with each of the routes to the mobile device. The method may include receiving a selection of one of the one or more routes from the mobile device. The method may include analyzing the selection and selected routes from a number of other mobile devices. The method may include adjusting an allocation of transit resources based on the analysis.Type: ApplicationFiled: October 19, 2020Publication date: April 22, 2021Inventors: Niosha Kayhani, Steffen Reymann
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Publication number: 20210056728Abstract: Techniques are disclosed for performing an initialization process for a set of FOV sensors using a set of initialization modules that are attachable to or integrated with the set of FOV sensors. A vertical distance associated with the set of FOV sensors is detected. An inter-module distance between a first initialization module and a second initialization module is detected. It is determined whether a placement of the second initialization module with respect to the first initialization module is acceptable based on the vertical distance and the inter-module distance. A feedback signal indicating whether the placement is acceptable is generated. The feedback signal is outputted at one or both of the first initialization module and the second initialization module.Type: ApplicationFiled: August 20, 2020Publication date: February 25, 2021Inventor: Niosha Kayhani
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Patent number: 10634501Abstract: Systems, methods, and other techniques for providing dynamically responsive feedback to a transit user are disclosed. Location data regarding a plurality of locations of the transit user within a transit system may be detected by a tracking device. An intent to validate is received from the transit user. Based on the intent to validate, it is determined that a successful validation has occurred. Based on the location data, the plurality of locations are determined. Based on the plurality of locations, a location and a velocity of the transit user are determined. Instructions for a feedback signal are generated based on the location and the velocity. A feedback device positioned within the transit system is caused to output the feedback signal, indicating the successful validation.Type: GrantFiled: May 24, 2019Date of Patent: April 28, 2020Assignee: Cubic CorporationInventors: Niosha Kayhani, Steffen Reymann, Angus Comber
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Patent number: 10600264Abstract: An overhead tracking system for tracking validation events including a plurality of validation devices that wirelessly receive an access token from a fare media device and validate the access token. The system includes an overhead tracking sensor that continuously tracks a position of each of a plurality of users passing underneath the sensor and receives an indication from at least one of the validation devices upon a user having successfully validated the access token from a fare media device associated with the user. The sensor detects when a particular one of the plurality of users has crossed into a feedback zone and sends a command to one or more remote devices based on detecting that the user has crossed into the feedback zone. The command and the remote devices are selected based on whether the user has successfully validated the access token.Type: GrantFiled: July 12, 2018Date of Patent: March 24, 2020Assignee: Cubic CorporationInventors: Niosha Kayhani, Steffen Reymann
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Patent number: 10497193Abstract: An overhead tracking system for tracking validation events including a plurality of validation devices that wirelessly receive an access token from a fare media device and validate the access token. The system includes an overhead tracking sensor that continuously tracks a position of each of a plurality of users passing underneath the sensor and receives an indication from at least one of the validation devices upon a user having successfully validated the access token from a fare media device associated with the user. The sensor detects when a particular one of the plurality of users has crossed into a feedback zone and sends a command to one or more remote devices based on detecting that the user has crossed into the feedback zone. The command and the remote devices are selected based on whether the user has successfully validated the access token.Type: GrantFiled: March 5, 2019Date of Patent: December 3, 2019Assignee: Cubic CorporationInventors: Niosha Kayhani, Steffen Reymann
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Publication number: 20190360812Abstract: Systems, methods, and other techniques for providing dynamically responsive feedback to a transit user are disclosed. Location data regarding a plurality of locations of the transit user within a transit system may be detected by a tracking device. An intent to validate is received from the transit user. Based on the intent to validate, it is determined that a successful validation has occurred. Based on the location data, the plurality of locations are determined. Based on the plurality of locations, a location and a velocity of the transit user are determined. Instructions for a feedback signal are generated based on the location and the velocity. A feedback device positioned within the transit system is caused to output the feedback signal, indicating the successful validation.Type: ApplicationFiled: May 24, 2019Publication date: November 28, 2019Applicant: Cubic CorporationInventors: Niosha Kayhani, Steffen Reymann, Angus Comber
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Publication number: 20190279496Abstract: A mobile communications device for providing proximity-based assistance includes a communications interface, a processor, and a memory that is configured to store instructions thereon that cause a processor to register, at a first time, a user of the mobile device as needing a type of assistance. The instructions also cause the processor to broadcast, at a second time, a request for assistance. The request includes the type of assistance needed. The request is broadcast to helper devices that are within a predetermined proximity of the user. Each of the helper devices is associated with a corresponding user that is registered to assist with the particular type of assistance needed. The instructions cause the processor to receive an indication from a helper device that the corresponding user has accepted the help request, determine that the corresponding user has assisted the user, and notify staff that the user has been assisted.Type: ApplicationFiled: May 1, 2019Publication date: September 12, 2019Applicant: Cubic CorporationInventors: Niosha Kayhani, Steffen Reymann, Gavin R. Smith
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Publication number: 20190272367Abstract: A multi-point validation device includes an elongate rail extending in a generally horizontal direction, a plurality of radio frequency antennas spaced apart along the length of the elongate rail, at least one reader module coupled with the plurality of radio frequency antennas, at least one visual indicator associated with each of the plurality of antennas and positioned proximate a corresponding one of the antennas, a processor, and a memory. The memory stores instructions that cause the processor to activate a single one of the radio frequency antennas, cause an indication that the single one of the radio frequency antennas is active to be produced by the at least one visual indicator associated with the single one of the radio frequency antennas, and receive data, at the at least one reader module, from at least one access media via the single one of the radio frequency antennas.Type: ApplicationFiled: May 21, 2019Publication date: September 5, 2019Applicant: Cubic CorporationInventors: Niosha Kayhani, Steffen Reymann
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Publication number: 20190220656Abstract: An incident avoidance system includes a plurality of imaging sensors and a neural computing system. The neural network computing system is configured to receive an image feed from at least one of the plurality of imaging sensors and analyze the image feed to identify a pattern of behavior exhibited by subjects within the image feed. The neural computing system is further configured to determine whether the identified pattern of behavior matches a known type of behavior and send a command to one or more remote devices. One or both of a type of the command or the one or more remove devices are selected based on a result of the determination whether the identified pattern of behavior matches a known type of behavior.Type: ApplicationFiled: March 28, 2019Publication date: July 18, 2019Applicant: Cubic CorporationInventors: Niosha Kayhani, Steffen Reymann
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Patent number: 10346604Abstract: A multi-point validation device includes an elongate rail extending in a generally horizontal direction, a plurality of radio frequency antennas spaced apart along the length of the elongate rail, at least one reader module coupled with the plurality of radio frequency antennas, at least one visual indicator associated with each of the plurality of antennas and positioned proximate a corresponding one of the antennas, a processor, and a memory. The memory stores instructions that cause the processor to activate a single one of the radio frequency antennas, cause an indication that the single one of the radio frequency antennas is active to be produced by the at least one visual indicator associated with the single one of the radio frequency antennas, and receive data, at the at least one reader module, from at least one access media via the single one of the radio frequency antennas.Type: GrantFiled: August 13, 2018Date of Patent: July 9, 2019Assignee: Cubic CorporationInventors: Niosha Kayhani, Steffen Reymann
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Publication number: 20190197804Abstract: An overhead tracking system for tracking validation events including a plurality of validation devices that wirelessly receive an access token from a fare media device and validate the access token. The system includes an overhead tracking sensor that continuously tracks a position of each of a plurality of users passing underneath the sensor and receives an indication from at least one of the validation devices upon a user having successfully validated the access token from a fare media device associated with the user. The sensor detects when a particular one of the plurality of users has crossed into a feedback zone and sends a command to one or more remote devices based on detecting that the user has crossed into the feedback zone. The command and the remote devices are selected based on whether the user has successfully validated the access token.Type: ApplicationFiled: March 5, 2019Publication date: June 27, 2019Applicant: Cubic CorporationInventors: Niosha Kayhani, Steffen Reymann
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Patent number: 10331943Abstract: An incident avoidance system includes a plurality of imaging sensors and a neural computing system. The neural network computing system is configured to receive an image feed from at least one of the plurality of imaging sensors and analyze the image feed to identify a pattern of behavior exhibited by subjects within the image feed. The neural computing system is further configured to determine whether the identified pattern of behavior matches a known type of behavior and send a command to one or more remote devices. One or both of a type of the command or the one or more remove devices are selected based on a result of the determination whether the identified pattern of behavior matches a known type of behavior.Type: GrantFiled: July 31, 2018Date of Patent: June 25, 2019Assignee: Cubic CorporationInventors: Niosha Kayhani, Steffen Reymann
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Patent number: 10325480Abstract: A mobile communications device for providing proximity-based assistance includes a communications interface, a processor, and a memory that is configured to store instructions thereon that cause a processor to register, at a first time, a user of the mobile device as needing a type of assistance. The instructions also cause the processor to broadcast, at a second time, a request for assistance. The request includes the type of assistance needed. The request is broadcast to helper devices that are within a predetermined proximity of the user. Each of the helper devices is associated with a corresponding user that is registered to assist with the particular type of assistance needed. The instructions cause the processor to receive an indication from a helper device that the corresponding user has accepted the help request, determine that the corresponding user has assisted the user, and notify staff that the user has been assisted.Type: GrantFiled: August 1, 2018Date of Patent: June 18, 2019Assignee: Cubic CorporationInventors: Niosha Kayhani, Steffen Reymann, Gavin R. Smith
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Publication number: 20190097803Abstract: Systems and methods of using data encryption to validate a biometric token within a transit system. One method includes sending, by a transit server, an encryption key to each of a biometric capture device and a portable electronic device. The method also includes capturing, by the biometric capture device, a biometric identifier of a transit user. The method further includes encrypting the captured biometric identifier using the encryption key, broadcasting a wireless signal containing the encrypted captured biometric identifier, and receiving a validation result indicating that the captured biometric identifier was matched to a registered biometric identifier by the portable electronic device. The method further include granting the transit user access to a restricted access area of the transit system based on the validation result.Type: ApplicationFiled: September 21, 2018Publication date: March 28, 2019Applicant: Cubic CorporationInventors: Erik Vlugt, Steffen Reymann, Niosha Kayhani
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Publication number: 20190050552Abstract: A multi-point validation device includes an elongate rail extending in a generally horizontal direction, a plurality of radio frequency antennas spaced apart along the length of the elongate rail, at least one reader module coupled with the plurality of radio frequency antennas, at least one visual indicator associated with each of the plurality of antennas and positioned proximate a corresponding one of the antennas, a processor, and a memory. The memory stores instructions that cause the processor to activate a single one of the radio frequency antennas, cause an indication that the single one of the radio frequency antennas is active to be produced by the at least one visual indicator associated with the single one of the radio frequency antennas, and receive data, at the at least one reader module, from at least one access media via the single one of the radio frequency antennas.Type: ApplicationFiled: August 13, 2018Publication date: February 14, 2019Applicant: Cubic CorporationInventors: Niosha Kayhani, Steffen Reymann
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Publication number: 20190043340Abstract: A mobile communications device for providing proximity-based assistance includes a communications interface, a processor, and a memory that is configured to store instructions thereon that cause a processor to register, at a first time, a user of the mobile device as needing a type of assistance. The instructions also cause the processor to broadcast, at a second time, a request for assistance. The request includes the type of assistance needed. The request is broadcast to helper devices that are within a predetermined proximity of the user. Each of the helper devices is associated with a corresponding user that is registered to assist with the particular type of assistance needed. The instructions cause the processor to receive an indication from a helper device that the corresponding user has accepted the help request, determine that the corresponding user has assisted the user, and notify staff that the user has been assisted.Type: ApplicationFiled: August 1, 2018Publication date: February 7, 2019Applicant: Cubic CorporationInventors: Niosha Kayhani, Steffen Reymann, Gavin R. Smith
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Publication number: 20190034711Abstract: An incident avoidance system includes a plurality of imaging sensors and a neural computing system. The neural network computing system is configured to receive an image feed from at least one of the plurality of imaging sensors and analyze the image feed to identify a pattern of behavior exhibited by subjects within the image feed. The neural computing system is further configured to determine whether the identified pattern of behavior matches a known type of behavior and send a command to one or more remote devices. One or both of a type of the command or the one or more remove devices are selected based on a result of the determination whether the identified pattern of behavior matches a known type of behavior.Type: ApplicationFiled: July 31, 2018Publication date: January 31, 2019Applicant: Cubic CorporationInventors: Niosha Kayhani, Steffen Reymann
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Publication number: 20190019361Abstract: An overhead tracking system for tracking validation events including a plurality of validation devices that wirelessly receive an access token from a fare media device and validate the access token. The system includes an overhead tracking sensor that continuously tracks a position of each of a plurality of users passing underneath the sensor and receives an indication from at least one of the validation devices upon a user having successfully validated the access token from a fare media device associated with the user. The sensor detects when a particular one of the plurality of users has crossed into a feedback zone and sends a command to one or more remote devices based on detecting that the user has crossed into the feedback zone. The command and the remote devices are selected based on whether the user has successfully validated the access token.Type: ApplicationFiled: July 12, 2018Publication date: January 17, 2019Applicant: Cubic CorporationInventors: Niosha Kayhani, Steffen Reymann
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Patent number: 10132726Abstract: A method for conducting environmental sampling includes determining to environmentally sample a particular paper transit ticket for a specific residue. Using an automated ticket device, at least one chemical reagent is applied to the particular paper transit ticket. The chemical reagent is selected based on the specific residue. The particular paper transit ticket is collected after the particular paper transit ticket was used as a fare media within a transit system. The at least one chemical reagent is analyzed to determine whether any of the specific residue is present.Type: GrantFiled: June 7, 2017Date of Patent: November 20, 2018Assignee: Cubic CorporatonInventors: Graham Paul Fletcher, Steffen Reymann, Niosha Kayhani