Patents by Inventor Shane Newberg
Shane Newberg 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: 11968543Abstract: Methods and apparatus for providing quasi-licensed spectrum access within an area or venue. In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated by a Federal or commercial SAS (Spectrum Access System) to a managed content delivery network that includes one or more wireless access nodes (e.g., CBSDs and APs) in data communication with a controller. In one variant, the controller dynamically allocates (i) spectrum within the area or venue within CBRS bands, and (ii) MSO users or subscribers to CBRS bands or WLAN (e.g., public ISM) bands in to manage interference between the coexisting networks, and maximize user experience. In another variant, the controller cooperates with a provisioning server to implement a client device application program or “app” on MSO user or subscriber client devices which enables inter-RAT access.Type: GrantFiled: April 6, 2023Date of Patent: April 23, 2024Assignee: CHARTER COMMUNICATIONS OPERATING, LLCInventors: Don Gunasekara, Umamaheswar Kakinada, Ahmed Bencheikh, Shane Newberg
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Patent number: 11909605Abstract: A method for providing a differentiated feature to a first user equipment (UE) connected to a local area network (LAN) implemented by a router connected to a customer premises equipment (CPE) provisioned with a default feature associated with a first service tier of a plurality of service tiers provided by an internet service provider includes obtaining data indicating the first UE has connected to the LAN and determining the first UE is eligible for a second service tier of the different tiers. In response to determining the first UE is eligible for the second service tier, the method includes causing the CPE to be dynamically provisioned for a differentiated service associated with the second service tier. The method includes sending a message to the router to configure the router to provide the differentiated feature to the first UE.Type: GrantFiled: December 21, 2022Date of Patent: February 20, 2024Assignee: Charter Communications Operating, LLCInventors: Shane Newberg, Christopher Teague, William K. Logan
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Publication number: 20230262473Abstract: Methods and apparatus for providing quasi-licensed spectrum access within an area or venue. In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated by a Federal or commercial SAS (Spectrum Access System) to a managed content delivery network that includes one or more wireless access nodes (e.g., CBSDs and APs) in data communication with a controller. In one variant, the controller dynamically allocates (i) spectrum within the area or venue within CBRS bands, and (ii) MSO users or subscribers to CBRS bands or WLAN (e.g., public ISM) bands in to manage interference between the coexisting networks, and maximize user experience. In another variant, the controller cooperates with a provisioning server to implement a client device application program or “app” on MSO user or subscriber client devices which enables inter-RAT access.Type: ApplicationFiled: April 6, 2023Publication date: August 17, 2023Inventors: Don Gunasekara, Umamaheswar Kakinada, Ahmed Bencheikh, Shane Newberg
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Patent number: 11700030Abstract: Methods and apparatus for providing quasi-licensed spectrum access within a prescribed area or venue, including to users or subscribers of one or more Mobile Network Operators (MNOs). In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated by a Federal or commercial SAS (Spectrum Access System) to a managed content delivery network that includes one or more wireless access nodes (e.g., CBSDs) in data communication with a controller, and the core(s) of the MNO network(s). In one variant, the controller dynamically allocates (i) spectrum within the area or venue within CBRS bands, and (ii) MNO “roaming” users or subscribers to CBRS bands (e.g., via extant LTE-TD technology). In one particular implementation, the managed network comprises a Multiple Systems Operator (MSO) network such as a cable or satellite network, and the MSO and MNO coordinate to implement user-specific and/or data-specific policies for the roaming MNO subscribers.Type: GrantFiled: November 29, 2021Date of Patent: July 11, 2023Assignee: CHARTER COMMUNICATIONS OPERATING, LLCInventors: Umamaheswar Kakinada, Don Gunasekara, Ahmed Bencheikh, Shane Newberg
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Publication number: 20230198939Abstract: Systems, methods, and devices for performing targeted filtering of network traffic generated by user equipment (UE) devices connected to a customer premise equipment (CPE) device in a communication system that includes a distributed residential gateway. A network server may determine that the communication system includes a UE device that is compromised, misconfigured, or operating outside normal communication parameters, identify the UE device, determine an Internet protocol (IP) address or a media access control (MAC) address of the identified UE device, generate a quarantine request message that includes the IP address or the MAC address of the identified UE device in response to determining that the preconfigured virtual local area network access control list (VACL) on the CPE lists source IP addresses from which the CPE will filter outbound traffic, and send the generated quarantine request message to a bridged residential gateway (BRG) associated with the CPE device.Type: ApplicationFiled: February 15, 2023Publication date: June 22, 2023Inventors: Timothy BLEIDORN, Cheryl WARNE, Shane NEWBERG, Christopher TEAGUE
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Patent number: 11641341Abstract: Systems, methods, and devices for performing targeted filtering of network traffic generated by user equipment (UE) devices connected to a customer premise equipment (CPE) device in a communication system that includes a distributed residential gateway. A network server may determine that the communication system includes a UE device that is compromised, misconfigured, or operating outside normal communication parameters, identify the UE device, determine an Internet protocol (IP) address or a media access control (MAC) address of the identified UE device, generate a quarantine request message that includes the IP address or the MAC address of the identified UE device in response to determining that the preconfigured virtual local area network access control list (VACL) on the CPE lists source IP addresses from which the CPE will filter outbound traffic, and send the generated quarantine request message to a bridged residential gateway (BRG) associated with the CPE device.Type: GrantFiled: June 24, 2021Date of Patent: May 2, 2023Assignee: Charter Communications Operating, LLCInventors: Timothy Bleidorn, Cheryl Warne, Shane Newberg, Christopher Teague
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Patent number: 11632677Abstract: Methods and apparatus for providing quasi-licensed spectrum access within an area or venue. In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated by a Federal or commercial SAS (Spectrum Access System) to a managed content delivery network that includes one or more wireless access nodes (e.g., CBSDs and APs) in data communication with a controller. In one variant, the controller dynamically allocates (i) spectrum within the area or venue within CBRS bands, and (ii) MSO users or subscribers to CBRS bands or WLAN (e.g., public ISM) bands in to manage interference between the coexisting networks, and maximize user experience. In another variant, the controller cooperates with a provisioning server to implement a client device application program or “app” on MSO user or subscriber client devices which enables inter-RAT access.Type: GrantFiled: January 13, 2020Date of Patent: April 18, 2023Assignee: CHARTER COMMUNICATIONS OPERATING, LLCInventors: Don Gunasekara, Umamaheswar Kakinada, Ahmed Bencheikh, Shane Newberg
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Publication number: 20220166459Abstract: Methods and apparatus for providing quasi-licensed spectrum access within a prescribed area or venue, including to users or subscribers of one or more Mobile Network Operators (MNOs). In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated by a Federal or commercial SAS (Spectrum Access System) to a managed content delivery network that includes one or more wireless access nodes (e.g., CBSDs) in data communication with a controller, and the core(s) of the MNO network(s). In one variant, the controller dynamically allocates (i) spectrum within the area or venue within CBRS bands, and (ii) MNO “roaming” users or subscribers to CBRS bands (e.g., via extant LTE-TD technology). In one particular implementation, the managed network comprises a Multiple Systems Operator (MSO) network such as a cable or satellite network, and the MSO and MNO coordinate to implement user-specific and/or data-specific policies for the roaming MNO subscribers.Type: ApplicationFiled: November 29, 2021Publication date: May 26, 2022Inventors: Umamaheswar Kakinada, Don Gunasekara, Ahmed Bencheikh, Shane Newberg
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Patent number: 11240098Abstract: Automatic local gateway router backup of a network gateway router is disclosed. A local gateway router communicatively coupled to a local subnet determines that a network gateway router that serves as a default gateway router for the local subnet has stopped responding. The local gateway router and the network gateway router are configured to communicate with one another via a tunnel implemented by a tunneling protocol. In response to determining that the network gateway router has stopped responding, automatically switching, by the local gateway router, from a tunneling mode to a routing mode, such that the local gateway router becomes the default gateway router for the local subnet.Type: GrantFiled: April 3, 2020Date of Patent: February 1, 2022Assignee: Charter Communications Operating, LLCInventors: Tim Bleidorn, Cheryl Warne, Shane Newberg, Christopher Teague
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Patent number: 11219026Abstract: Methods and apparatus for providing quasi-licensed spectrum access within an area or application so as to enable “end to end” IoT (Internet of Things) device connectivity. In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated by a Federal or commercial SAS (Spectrum Access System) to a managed content delivery network that includes one or more wireless access nodes (e.g., CBSDs (Citizens Broadband radio Service Devices) and IoT hubs or gateways) in data communication with a controller. In one variant, the controller dynamically allocates (i) spectrum within the area or venue within CBRS bands, and (ii) MSO (multiple systems operator) users or subscribers to CBRS bands or IoT (Internet of Things) bands (e.g., public ISM (industrial, scientific and medical)) bands to maximize connectivity and performance.Type: GrantFiled: November 25, 2019Date of Patent: January 4, 2022Assignee: Charter Communications Operating, LLCInventors: Umamaheswar Kakinada, Don Gunasekara, Ahmed Bencheikh, Shane Newberg
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Patent number: 11190232Abstract: Methods and apparatus for providing quasi-licensed spectrum access within a prescribed area or venue, including to users or subscribers of one or more Mobile Network Operators (MNOs). In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated by a Federal or commercial SAS (Spectrum Access System) to a managed content delivery network that includes one or more wireless access nodes (e.g., CBSDs) in data communication with a controller, and the core(s) of the MNO network(s). In one variant, the controller dynamically allocates (i) spectrum within the area or venue within CBRS bands, and (ii) MNO “roaming” users or subscribers to CBRS bands (e.g., via extant LTE-TD technology). In one particular implementation, the managed network comprises a Multiple Systems Operator (MSO) network such as a cable or satellite network, and the MSO and MNO coordinate to implement user-specific and/or data-specific policies for the roaming MNO subscribers.Type: GrantFiled: July 1, 2019Date of Patent: November 30, 2021Assignee: Charter Communications Operating, LLCInventors: Umamaheswar Kakinada, Don Gunasekara, Ahmed Bencheikh, Shane Newberg
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Publication number: 20210344639Abstract: Systems, methods, and devices for performing targeted filtering of network traffic generated by user equipment (UE) devices connected to a customer premise equipment (CPE) device in a communication system that includes a distributed residential gateway. A network server may determine that the communication system includes a UE device that is compromised, misconfigured, or operating outside normal communication parameters, identify the UE device, determine an Internet protocol (IP) address or a media access control (MAC) address of the identified UE device, generate a quarantine request message that includes the IP address or the MAC address of the identified UE device in response to determining that the preconfigured virtual local area network access control list (VACL) on the CPE lists source IP addresses from which the CPE will filter outbound traffic, and send the generated quarantine request message to a bridged residential gateway (BRG) associated with the CPE device.Type: ApplicationFiled: June 24, 2021Publication date: November 4, 2021Inventors: Timothy BLEIDORN, Cheryl WARNER, Shane NEWBERG, Christopher TEAGUE
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Publication number: 20210314217Abstract: Automatic local gateway router backup of a network gateway router is disclosed. A local gateway router communicatively coupled to a local subnet determines that a network gateway router that serves as a default gateway router for the local subnet has stopped responding. The local gateway router and the network gateway router are configured to communicate with one another via a tunnel implemented by a tunneling protocol. In response to determining that the network gateway router has stopped responding, automatically switching, by the local gateway router, from a tunneling mode to a routing mode, such that the local gateway router becomes the default gateway router for the local subnet.Type: ApplicationFiled: April 3, 2020Publication date: October 7, 2021Inventors: Tim Bleidorn, Cheryl Warne, Shane Newberg, Christopher Teague
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Publication number: 20200228993Abstract: Methods and apparatus for providing quasi-licensed spectrum access within an area or venue. In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated by a Federal or commercial SAS (Spectrum Access System) to a managed content delivery network that includes one or more wireless access nodes (e.g., CSDs and APs) in data communication with a controller. In one variant, the controller dynamically allocates (i) spectrum within the area or venue within CBRS bands, and (ii) MSO users or subscribers to CBRS bands or WLAN (e.g., public ISM) bands in to manage interference between the coexisting networks, and maximize user experience. In another variant, the controller cooperates with a provisioning server to implement a client device application program or “app” on MSO user or subscriber client devices which enables inter-RAT access.Type: ApplicationFiled: January 13, 2020Publication date: July 16, 2020Inventors: Don Gunasekara, Umamaheswar Kakinada, Ahmed Bencheikh, Shane Newberg
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Publication number: 20200178237Abstract: Methods and apparatus for providing quasi-licensed spectrum access within an area or application so as to enable “end to end” IoT device connectivity. In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated by a Federal or commercial SAS (Spectrum Access System) to a managed content delivery network that includes one or more wireless access nodes (e.g., CBSDs and IoT hubs or gateways) in data communication with a controller. In one variant, the controller dynamically allocates (i) spectrum within the area or venue within CBRS bands, and (ii) MSO users or subscribers to CBRS bands or IoT bands (e.g., public ISM) bands to maximize connectivity and performance. In another variant, the controller cooperates with a provisioning server to implement a client device application program or “app” on an end user IoT device which enables inter-RAT connectivity.Type: ApplicationFiled: November 25, 2019Publication date: June 4, 2020Inventors: Umamaheswar Kakinada, Don Gunasekara, Ahmed Bencheikh, Shane Newberg
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Patent number: 10536859Abstract: Methods and apparatus for providing quasi-licensed spectrum access within an area or venue. In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated by a Federal or commercial SAS (Spectrum Access System) to a managed content delivery network that includes one or more wireless access nodes (e.g., CBSDs and APs) in data communication with a controller. In one variant, the controller dynamically allocates (i) spectrum within the area or venue within CBRS bands, and (ii) MSO users or subscribers to CBRS bands or WLAN (e.g., public ISM) bands in to manage interference between the coexisting networks, and maximize user experience. In another variant, the controller cooperates with a provisioning server to implement a client device application program or “app” on MSO user or subscriber client devices which enables inter-RAT access.Type: GrantFiled: August 15, 2017Date of Patent: January 14, 2020Assignee: CHARTER COMMUNICATIONS OPERATING, LLCInventors: Don Gunasekara, Umamaheswar Kakinada, Ahmed Bencheikh, Shane Newberg
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Publication number: 20190393926Abstract: Methods and apparatus for providing quasi-licensed spectrum access within a prescribed area or venue, including to users or subscribers of one or more Mobile Network Operators (MNOs). In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated by a Federal or commercial SAS (Spectrum Access System) to a managed content delivery network that includes one or more wireless access nodes (e.g., CBSDs) in data communication with a controller, and the core(s) of the MNO network(s). In one variant, the controller dynamically allocates (i) spectrum within the area or venue within CBRS bands, and (ii) MNO “roaming” users or subscribers to CBRS bands (e.g., via extant LTE-TD technology). In one particular implementation, the managed network comprises a Multiple Systems Operator (MSO) network such as a cable or satellite network, and the MSO and MNO coordinate to implement user-specific and/or data-specific policies for the roaming MNO subscribers.Type: ApplicationFiled: July 1, 2019Publication date: December 26, 2019Inventors: Umamaheswar Kakinada, Don Gunasekara, Ahmed Bencheikh, Shane Newberg
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Patent number: 10492204Abstract: Methods and apparatus for providing quasi-licensed spectrum access within an area or application to enable “end to end” IoT (Internet-of-Things) device connectivity. In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated by a Federal or commercial SAS (Spectrum Access System) to a managed content delivery network that includes one or more wireless access nodes (e.g., CBSDs (Citizens Broadband radio Service Devices) and IoT hubs or gateways) in data communication with a controller. In one variant, the controller dynamically allocates (i) spectrum within the area or venue within CBRS bands, and (ii) MSO (multiple systems operator) users to CBRS bands or IoT bands (e.g., public ISM (industrial, scientific and medical)) bands to maximize connectivity and performance.Type: GrantFiled: November 15, 2017Date of Patent: November 26, 2019Assignee: Charter Communications Operating, LLCInventors: Umamaheswar Kakinada, Don Gunasekara, Ahmed Bencheikh, Shane Newberg
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Patent number: 10340976Abstract: Methods and apparatus for providing quasi-licensed spectrum access within a prescribed area or venue, including to users or subscribers of one or more Mobile Network Operators (MNOs). In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated by a Federal or commercial SAS (Spectrum Access System) to a managed content delivery network that includes one or more wireless access nodes (e.g., CBSDs) in data communication with a controller, and the core(s) of the MNO network(s). In one variant, the controller dynamically allocates (i) spectrum within the area or venue within CBRS bands, and (ii) MNO “roaming” users or subscribers to CBRS bands (e.g., via extant LTE-TD technology). In one particular implementation, the managed network comprises a Multiple Systems Operator (MSO) network such as a cable or satellite network, and the MSO and MNO coordinate to implement user-specific and/or data-specific policies for the roaming MNO subscribers.Type: GrantFiled: October 16, 2017Date of Patent: July 2, 2019Assignee: Charter Communications Operating, LLCInventors: Umamaheswar Kakinada, Don Gunasekara, Ahmed Bencheikh, Shane Newberg
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Publication number: 20190150134Abstract: Methods and apparatus for providing quasi-licensed spectrum access within an area or application so as to enable “end to end” IoT device connectivity. In one embodiment, the quasi-licensed spectrum utilizes 3.5 GHz CBRS (Citizens Broadband Radio Service) spectrum allocated by a Federal or commercial SAS (Spectrum Access System) to a managed content delivery network that includes one or more wireless access nodes (e.g., CBSDs and IoT hubs or gateways) in data communication with a controller. In one variant, the controller dynamically allocates (i) spectrum within the area or venue within CBRS bands, and (ii) MSO users or subscribers to CBRS bands or IoT bands (e.g., public ISM) bands to maximize connectivity and performance. In another variant, the controller cooperates with a provisioning server to implement a client device application program or “app” on an end user IoT device which enables inter-RAT connectivity.Type: ApplicationFiled: November 15, 2017Publication date: May 16, 2019Inventors: UMAMAHESWAR KAKINADA, DON GUNASEKARA, AHMED BENCHEIKH, SHANE NEWBERG