Difference between revisions of "Cisco Technology, Inc. patent applications published on November 30th, 2023"
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+ | '''Summary of the patent applications from Cisco Technology, Inc. on November 30th, 2023''' | ||
+ | |||
+ | Cisco Technology, Inc. has recently filed several patents related to various technologies and applications. These patents cover a range of areas including heat-exchangers for electronic systems, user equipment policies in mobile networks, network slice authentication and authorization, network connection selection based on slice considerations, Ultra-Wideband (UWB) technology for location tracking, analyzing call transcripts for user experience improvement, enforcing access point policies, suggesting proactive security policies for applications, and evaluating identity providers for authentication in Wi-Fi identity federations. | ||
+ | |||
+ | In the area of heat-exchangers for electronic systems, Cisco has developed a modular system that can be mounted on a rack. The heat exchanger has separate paths for ambient air and recirculating air, with ducts connecting the two paths. Fan assemblies are used to propel air through the heat exchanger, and the housing for the electronic device has its own internal airflow path. | ||
+ | |||
+ | In the field of user equipment policies in mobile networks, Cisco has developed techniques for communicating a UE policy to a UE. This policy, called UE Route Selection Policy (URSP), includes a policy rule that associates an application and/or its traffic with a routing policy for 3GPP access. The patent application also describes methods for selective network slice authentication and authorization, simplifying the authentication process for user equipment accessing multiple network slices. | ||
+ | |||
+ | Cisco has also filed patents related to network connection selection based on slice considerations while roaming among multiple visited mobile networks. The techniques involve requesting registration for a network connection associated with a specific slice type and selecting the visited mobile network with the highest priority that offers the desired slice type. | ||
+ | |||
+ | In the area of Ultra-Wideband (UWB) technology, Cisco has developed a system for broadcasting location tracking information to user devices in a venue. The patent application aims to determine the position of the user device within the venue based on ranging messages sent by the user device. | ||
+ | |||
+ | Cisco has also filed patents related to analyzing call transcripts for identifying cues indicating a poor user experience and optimizing network paths for online applications based on these cues. Additionally, they have developed a device that enforces access point policies by sending disciplinary messages to computing devices that deviate from the access point's multi-user uplink policy. | ||
+ | |||
+ | In the field of proactive security policies for applications, Cisco has developed a system that suggests security policies based on the software composition and runtime behavior of applications. The system applies clustering algorithms to generate multiple cluster sets and determines and applies security policies to each cluster set. | ||
+ | |||
+ | Lastly, Cisco has filed a patent related to evaluating identity providers (IDPs) for authenticating users in Wi-Fi identity federations. The process helps with onboarding different IDPs by determining a person's electronic identity and attributes using a standard, establishing trust for a user, and utilizing the same trust determination across multiple systems. | ||
+ | |||
+ | - Heat-exchanger for modular electronic systems with separate paths for ambient air and recirculating air. | ||
+ | - Fan assembly with a conical air guider to reduce turbulence in the airflow. | ||
+ | - Method for communicating UE policies and triggering handover of communication sessions. | ||
+ | - Techniques for selective network slice authentication and authorization to simplify the authentication process. | ||
+ | - UE network connection selection based on slice considerations while roaming among multiple visited mobile networks. | ||
+ | - Broadcasting location tracking information for UWB technology and determining device position. | ||
+ | - Device for analyzing call transcripts and optimizing network paths for improved user experience. | ||
+ | - Device for enforcing access point policies by sending disciplinary messages to deviating computing devices. | ||
+ | - System for suggesting proactive security policies based on software composition and runtime behavior of applications. | ||
+ | - Process for evaluating identity providers and their credentials for authenticating users in Wi-Fi identity federations. | ||
+ | |||
+ | |||
+ | |||
+ | |||
==Patent applications for Cisco Technology, Inc. on November 30th, 2023== | ==Patent applications for Cisco Technology, Inc. on November 30th, 2023== | ||
− | ===BROADBAND OPTICAL COUPLING USING DISPERSIVE ELEMENTS ([[US Patent Application 18448429. BROADBAND OPTICAL COUPLING USING DISPERSIVE ELEMENTS simplified abstract|18448429]])=== | + | ===BROADBAND OPTICAL COUPLING USING DISPERSIVE ELEMENTS ([[US Patent Application 18448429. BROADBAND OPTICAL COUPLING USING DISPERSIVE ELEMENTS simplified abstract (Cisco Technology, Inc.)|18448429]])=== |
Line 9: | Line 41: | ||
− | ===ADMISSION CONTROL BASED ON UNIVERSAL REFERENCES FOR HARDWARE AND/OR SOFTWARE CONFIGURATIONS ([[US Patent Application 17826411. ADMISSION CONTROL BASED ON UNIVERSAL REFERENCES FOR HARDWARE AND/OR SOFTWARE CONFIGURATIONS simplified abstract|17826411]])=== | + | ===ADMISSION CONTROL BASED ON UNIVERSAL REFERENCES FOR HARDWARE AND/OR SOFTWARE CONFIGURATIONS ([[US Patent Application 17826411. ADMISSION CONTROL BASED ON UNIVERSAL REFERENCES FOR HARDWARE AND/OR SOFTWARE CONFIGURATIONS simplified abstract (Cisco Technology, Inc.)|17826411]])=== |
Line 17: | Line 49: | ||
− | ===DYNAMIC CLASSIFICATION AND OPTIMIZATION OF COMPUTING RESOURCE UTILIZATION ([[US Patent Application 17826444. DYNAMIC CLASSIFICATION AND OPTIMIZATION OF COMPUTING RESOURCE UTILIZATION simplified abstract|17826444]])=== | + | ===DYNAMIC CLASSIFICATION AND OPTIMIZATION OF COMPUTING RESOURCE UTILIZATION ([[US Patent Application 17826444. DYNAMIC CLASSIFICATION AND OPTIMIZATION OF COMPUTING RESOURCE UTILIZATION simplified abstract (Cisco Technology, Inc.)|17826444]])=== |
Line 25: | Line 57: | ||
− | ===MACHINE LEARNING FOR MANAGEMENT OF POSITIONING TECHNIQUES AND RADIO FREQUENCY USAGE ([[US Patent Application 17804513. MACHINE LEARNING FOR MANAGEMENT OF POSITIONING TECHNIQUES AND RADIO FREQUENCY USAGE simplified abstract|17804513]])=== | + | ===MACHINE LEARNING FOR MANAGEMENT OF POSITIONING TECHNIQUES AND RADIO FREQUENCY USAGE ([[US Patent Application 17804513. MACHINE LEARNING FOR MANAGEMENT OF POSITIONING TECHNIQUES AND RADIO FREQUENCY USAGE simplified abstract (Cisco Technology, Inc.)|17804513]])=== |
Line 33: | Line 65: | ||
− | ===RECONCILING COMPUTING INFRASTRUCTURE AND DATA IN FEDERATED LEARNING ([[US Patent Application 17828582. RECONCILING COMPUTING INFRASTRUCTURE AND DATA IN FEDERATED LEARNING simplified abstract|17828582]])=== | + | ===RECONCILING COMPUTING INFRASTRUCTURE AND DATA IN FEDERATED LEARNING ([[US Patent Application 17828582. RECONCILING COMPUTING INFRASTRUCTURE AND DATA IN FEDERATED LEARNING simplified abstract (Cisco Technology, Inc.)|17828582]])=== |
Line 41: | Line 73: | ||
− | ===OPTICAL TRANSCEIVER MISCONNECTION DISCOVERY ([[US Patent Application 18447692. OPTICAL TRANSCEIVER MISCONNECTION DISCOVERY simplified abstract|18447692]])=== | + | ===OPTICAL TRANSCEIVER MISCONNECTION DISCOVERY ([[US Patent Application 18447692. OPTICAL TRANSCEIVER MISCONNECTION DISCOVERY simplified abstract (Cisco Technology, Inc.)|18447692]])=== |
Line 49: | Line 81: | ||
− | ===HYBRID MODE MULTICAST ROUTING ([[US Patent Application 17826525. HYBRID MODE MULTICAST ROUTING simplified abstract|17826525]])=== | + | ===HYBRID MODE MULTICAST ROUTING ([[US Patent Application 17826525. HYBRID MODE MULTICAST ROUTING simplified abstract (Cisco Technology, Inc.)|17826525]])=== |
Line 57: | Line 89: | ||
− | ===TELEMETRY REPORTING IN VEHICLE SUPER RESOLUTION SYSTEMS ([[US Patent Application 18202680. TELEMETRY REPORTING IN VEHICLE SUPER RESOLUTION SYSTEMS simplified abstract|18202680]])=== | + | ===TELEMETRY REPORTING IN VEHICLE SUPER RESOLUTION SYSTEMS ([[US Patent Application 18202680. TELEMETRY REPORTING IN VEHICLE SUPER RESOLUTION SYSTEMS simplified abstract (Cisco Technology, Inc.)|18202680]])=== |
Line 65: | Line 97: | ||
− | ===MULTI-FABRIC DEPLOYMENT AND MANAGEMENT PLATFORM ([[US Patent Application 18447158. MULTI-FABRIC DEPLOYMENT AND MANAGEMENT PLATFORM simplified abstract|18447158]])=== | + | ===MULTI-FABRIC DEPLOYMENT AND MANAGEMENT PLATFORM ([[US Patent Application 18447158. MULTI-FABRIC DEPLOYMENT AND MANAGEMENT PLATFORM simplified abstract (Cisco Technology, Inc.)|18447158]])=== |
Line 73: | Line 105: | ||
− | ===PARALLEL EXECUTION OF NETWORK SERVICES WITH OVERLAPPING DEVICE CONFIGURATION ([[US Patent Application 18121965. PARALLEL EXECUTION OF NETWORK SERVICES WITH OVERLAPPING DEVICE CONFIGURATION simplified abstract|18121965]])=== | + | ===PARALLEL EXECUTION OF NETWORK SERVICES WITH OVERLAPPING DEVICE CONFIGURATION ([[US Patent Application 18121965. PARALLEL EXECUTION OF NETWORK SERVICES WITH OVERLAPPING DEVICE CONFIGURATION simplified abstract (Cisco Technology, Inc.)|18121965]])=== |
Line 81: | Line 113: | ||
− | ===MICRO SEGMENT IDENTIFIER INSTRUCTIONS FOR PATH TRACING OPTIMIZATION ([[US Patent Application 18234276. MICRO SEGMENT IDENTIFIER INSTRUCTIONS FOR PATH TRACING OPTIMIZATION simplified abstract|18234276]])=== | + | ===MICRO SEGMENT IDENTIFIER INSTRUCTIONS FOR PATH TRACING OPTIMIZATION ([[US Patent Application 18234276. MICRO SEGMENT IDENTIFIER INSTRUCTIONS FOR PATH TRACING OPTIMIZATION simplified abstract (Cisco Technology, Inc.)|18234276]])=== |
Line 89: | Line 121: | ||
− | ===Optimizing IPSec for Hierarchical SD-WAN ([[US Patent Application 17804333. Optimizing IPSec for Hierarchical SD-WAN simplified abstract|17804333]])=== | + | ===Optimizing IPSec for Hierarchical SD-WAN ([[US Patent Application 17804333. Optimizing IPSec for Hierarchical SD-WAN simplified abstract (Cisco Technology, Inc.)|17804333]])=== |
Line 97: | Line 129: | ||
− | ===UNLOCKING COMPUTING RESOURCES FOR DECOMPOSABLE DATA CENTERS ([[US Patent Application 18232276. UNLOCKING COMPUTING RESOURCES FOR DECOMPOSABLE DATA CENTERS simplified abstract|18232276]])=== | + | ===UNLOCKING COMPUTING RESOURCES FOR DECOMPOSABLE DATA CENTERS ([[US Patent Application 18232276. UNLOCKING COMPUTING RESOURCES FOR DECOMPOSABLE DATA CENTERS simplified abstract (Cisco Technology, Inc.)|18232276]])=== |
Line 105: | Line 137: | ||
− | ===PROVIDING HIGH ASSURANCE OF END-TO-END CPRI CIRCUIT IN A HIGH JITTER PACKET BASED FRONTHAUL NETWORK ([[US Patent Application 17824077. PROVIDING HIGH ASSURANCE OF END-TO-END CPRI CIRCUIT IN A HIGH JITTER PACKET BASED FRONTHAUL NETWORK simplified abstract|17824077]])=== | + | ===PROVIDING HIGH ASSURANCE OF END-TO-END CPRI CIRCUIT IN A HIGH JITTER PACKET BASED FRONTHAUL NETWORK ([[US Patent Application 17824077. PROVIDING HIGH ASSURANCE OF END-TO-END CPRI CIRCUIT IN A HIGH JITTER PACKET BASED FRONTHAUL NETWORK simplified abstract (Cisco Technology, Inc.)|17824077]])=== |
Line 113: | Line 145: | ||
− | ===SOFTWARE DEFINED BRANCH SINGLE INTERNET PROTOCOL ORCHESTRATION ([[US Patent Application 18448873. SOFTWARE DEFINED BRANCH SINGLE INTERNET PROTOCOL ORCHESTRATION simplified abstract|18448873]])=== | + | ===SOFTWARE DEFINED BRANCH SINGLE INTERNET PROTOCOL ORCHESTRATION ([[US Patent Application 18448873. SOFTWARE DEFINED BRANCH SINGLE INTERNET PROTOCOL ORCHESTRATION simplified abstract (Cisco Technology, Inc.)|18448873]])=== |
Line 121: | Line 153: | ||
− | ===WIRELESS LAN (WLAN) PUBLIC IDENTITY FEDERATION TRUST ARCHITECTURE ([[US Patent Application 18446337. WIRELESS LAN (WLAN) PUBLIC IDENTITY FEDERATION TRUST ARCHITECTURE simplified abstract|18446337]])=== | + | ===WIRELESS LAN (WLAN) PUBLIC IDENTITY FEDERATION TRUST ARCHITECTURE ([[US Patent Application 18446337. WIRELESS LAN (WLAN) PUBLIC IDENTITY FEDERATION TRUST ARCHITECTURE simplified abstract (Cisco Technology, Inc.)|18446337]])=== |
Line 129: | Line 161: | ||
− | ===Systems and Methods for Application Clustering Based on Included Libraries and Observed Events ([[US Patent Application 17752987. Systems and Methods for Application Clustering Based on Included Libraries and Observed Events simplified abstract|17752987]])=== | + | ===Systems and Methods for Application Clustering Based on Included Libraries and Observed Events ([[US Patent Application 17752987. Systems and Methods for Application Clustering Based on Included Libraries and Observed Events simplified abstract (Cisco Technology, Inc.)|17752987]])=== |
Line 137: | Line 169: | ||
− | ===NETWORK COMPLIANCE AND ADMISSION CONTROL ([[US Patent Application 18361779. NETWORK COMPLIANCE AND ADMISSION CONTROL simplified abstract|18361779]])=== | + | ===NETWORK COMPLIANCE AND ADMISSION CONTROL ([[US Patent Application 18361779. NETWORK COMPLIANCE AND ADMISSION CONTROL simplified abstract (Cisco Technology, Inc.)|18361779]])=== |
Line 145: | Line 177: | ||
− | ===APPLICATION ROUTING BASED ON USER EXPERIENCE METRICS LEARNED FROM CALL TRANSCRIPTS ([[US Patent Application 17828141. APPLICATION ROUTING BASED ON USER EXPERIENCE METRICS LEARNED FROM CALL TRANSCRIPTS simplified abstract|17828141]])=== | + | ===APPLICATION ROUTING BASED ON USER EXPERIENCE METRICS LEARNED FROM CALL TRANSCRIPTS ([[US Patent Application 17828141. APPLICATION ROUTING BASED ON USER EXPERIENCE METRICS LEARNED FROM CALL TRANSCRIPTS simplified abstract (Cisco Technology, Inc.)|17828141]])=== |
Line 153: | Line 185: | ||
− | ===DIFFERENTIATED TIME-DIFFERENCE OF ARRIVAL FOR ULTRA-WIDEBAND (UWB) ([[US Patent Application 17929791. DIFFERENTIATED TIME-DIFFERENCE OF ARRIVAL FOR ULTRA-WIDEBAND (UWB) simplified abstract|17929791]])=== | + | ===DIFFERENTIATED TIME-DIFFERENCE OF ARRIVAL FOR ULTRA-WIDEBAND (UWB) ([[US Patent Application 17929791. DIFFERENTIATED TIME-DIFFERENCE OF ARRIVAL FOR ULTRA-WIDEBAND (UWB) simplified abstract (Cisco Technology, Inc.)|17929791]])=== |
Line 161: | Line 193: | ||
− | ===FACILITATING VISITED NETWORK SELECTION BY A USER EQUIPMENT BASED ON SLICE CONSIDERATIONS ([[US Patent Application 18449108. FACILITATING VISITED NETWORK SELECTION BY A USER EQUIPMENT BASED ON SLICE CONSIDERATIONS simplified abstract|18449108]])=== | + | ===FACILITATING VISITED NETWORK SELECTION BY A USER EQUIPMENT BASED ON SLICE CONSIDERATIONS ([[US Patent Application 18449108. FACILITATING VISITED NETWORK SELECTION BY A USER EQUIPMENT BASED ON SLICE CONSIDERATIONS simplified abstract (Cisco Technology, Inc.)|18449108]])=== |
Line 169: | Line 201: | ||
− | ===SELECTIVE NETWORK SLICE AUTHENTICATION AND AUTHORIZATION IN A MOBILE NETWORK ENVIRONMENT ([[US Patent Application 17752182. SELECTIVE NETWORK SLICE AUTHENTICATION AND AUTHORIZATION IN A MOBILE NETWORK ENVIRONMENT simplified abstract|17752182]])=== | + | ===SELECTIVE NETWORK SLICE AUTHENTICATION AND AUTHORIZATION IN A MOBILE NETWORK ENVIRONMENT ([[US Patent Application 17752182. SELECTIVE NETWORK SLICE AUTHENTICATION AND AUTHORIZATION IN A MOBILE NETWORK ENVIRONMENT simplified abstract (Cisco Technology, Inc.)|17752182]])=== |
Line 177: | Line 209: | ||
− | ===USER EQUIPMENT (UE) POLICY FOR SELECTION OF RADIO ACCESS TECHNOLOGY (RAT) TYPE FOR MOBILITY FROM NON-3GPP TO 3GPP ACCESSES ([[US Patent Application 17752411. USER EQUIPMENT (UE) POLICY FOR SELECTION OF RADIO ACCESS TECHNOLOGY (RAT) TYPE FOR MOBILITY FROM NON-3GPP TO 3GPP ACCESSES simplified abstract|17752411]])=== | + | ===USER EQUIPMENT (UE) POLICY FOR SELECTION OF RADIO ACCESS TECHNOLOGY (RAT) TYPE FOR MOBILITY FROM NON-3GPP TO 3GPP ACCESSES ([[US Patent Application 17752411. USER EQUIPMENT (UE) POLICY FOR SELECTION OF RADIO ACCESS TECHNOLOGY (RAT) TYPE FOR MOBILITY FROM NON-3GPP TO 3GPP ACCESSES simplified abstract (Cisco Technology, Inc.)|17752411]])=== |
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− | ===COOLING FAN ASSEMBLY WITH AIR GUIDER ([[US Patent Application 17826520. COOLING FAN ASSEMBLY WITH AIR GUIDER simplified abstract|17826520]])=== | + | ===COOLING FAN ASSEMBLY WITH AIR GUIDER ([[US Patent Application 17826520. COOLING FAN ASSEMBLY WITH AIR GUIDER simplified abstract (Cisco Technology, Inc.)|17826520]])=== |
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− | ===RACK-MOUNTABLE HEAT-EXCHANGER FOR MODULAR ELECTRONIC SYSTEMS ([[US Patent Application 18448778. RACK-MOUNTABLE HEAT-EXCHANGER FOR MODULAR ELECTRONIC SYSTEMS simplified abstract|18448778]])=== | + | ===RACK-MOUNTABLE HEAT-EXCHANGER FOR MODULAR ELECTRONIC SYSTEMS ([[US Patent Application 18448778. RACK-MOUNTABLE HEAT-EXCHANGER FOR MODULAR ELECTRONIC SYSTEMS simplified abstract (Cisco Technology, Inc.)|18448778]])=== |
Latest revision as of 06:37, 7 December 2023
Summary of the patent applications from Cisco Technology, Inc. on November 30th, 2023
Cisco Technology, Inc. has recently filed several patents related to various technologies and applications. These patents cover a range of areas including heat-exchangers for electronic systems, user equipment policies in mobile networks, network slice authentication and authorization, network connection selection based on slice considerations, Ultra-Wideband (UWB) technology for location tracking, analyzing call transcripts for user experience improvement, enforcing access point policies, suggesting proactive security policies for applications, and evaluating identity providers for authentication in Wi-Fi identity federations.
In the area of heat-exchangers for electronic systems, Cisco has developed a modular system that can be mounted on a rack. The heat exchanger has separate paths for ambient air and recirculating air, with ducts connecting the two paths. Fan assemblies are used to propel air through the heat exchanger, and the housing for the electronic device has its own internal airflow path.
In the field of user equipment policies in mobile networks, Cisco has developed techniques for communicating a UE policy to a UE. This policy, called UE Route Selection Policy (URSP), includes a policy rule that associates an application and/or its traffic with a routing policy for 3GPP access. The patent application also describes methods for selective network slice authentication and authorization, simplifying the authentication process for user equipment accessing multiple network slices.
Cisco has also filed patents related to network connection selection based on slice considerations while roaming among multiple visited mobile networks. The techniques involve requesting registration for a network connection associated with a specific slice type and selecting the visited mobile network with the highest priority that offers the desired slice type.
In the area of Ultra-Wideband (UWB) technology, Cisco has developed a system for broadcasting location tracking information to user devices in a venue. The patent application aims to determine the position of the user device within the venue based on ranging messages sent by the user device.
Cisco has also filed patents related to analyzing call transcripts for identifying cues indicating a poor user experience and optimizing network paths for online applications based on these cues. Additionally, they have developed a device that enforces access point policies by sending disciplinary messages to computing devices that deviate from the access point's multi-user uplink policy.
In the field of proactive security policies for applications, Cisco has developed a system that suggests security policies based on the software composition and runtime behavior of applications. The system applies clustering algorithms to generate multiple cluster sets and determines and applies security policies to each cluster set.
Lastly, Cisco has filed a patent related to evaluating identity providers (IDPs) for authenticating users in Wi-Fi identity federations. The process helps with onboarding different IDPs by determining a person's electronic identity and attributes using a standard, establishing trust for a user, and utilizing the same trust determination across multiple systems.
- Heat-exchanger for modular electronic systems with separate paths for ambient air and recirculating air. - Fan assembly with a conical air guider to reduce turbulence in the airflow. - Method for communicating UE policies and triggering handover of communication sessions. - Techniques for selective network slice authentication and authorization to simplify the authentication process. - UE network connection selection based on slice considerations while roaming among multiple visited mobile networks. - Broadcasting location tracking information for UWB technology and determining device position. - Device for analyzing call transcripts and optimizing network paths for improved user experience. - Device for enforcing access point policies by sending disciplinary messages to deviating computing devices. - System for suggesting proactive security policies based on software composition and runtime behavior of applications. - Process for evaluating identity providers and their credentials for authenticating users in Wi-Fi identity federations.
Contents
- 1 Patent applications for Cisco Technology, Inc. on November 30th, 2023
- 1.1 BROADBAND OPTICAL COUPLING USING DISPERSIVE ELEMENTS (18448429)
- 1.2 ADMISSION CONTROL BASED ON UNIVERSAL REFERENCES FOR HARDWARE AND/OR SOFTWARE CONFIGURATIONS (17826411)
- 1.3 DYNAMIC CLASSIFICATION AND OPTIMIZATION OF COMPUTING RESOURCE UTILIZATION (17826444)
- 1.4 MACHINE LEARNING FOR MANAGEMENT OF POSITIONING TECHNIQUES AND RADIO FREQUENCY USAGE (17804513)
- 1.5 RECONCILING COMPUTING INFRASTRUCTURE AND DATA IN FEDERATED LEARNING (17828582)
- 1.6 OPTICAL TRANSCEIVER MISCONNECTION DISCOVERY (18447692)
- 1.7 HYBRID MODE MULTICAST ROUTING (17826525)
- 1.8 TELEMETRY REPORTING IN VEHICLE SUPER RESOLUTION SYSTEMS (18202680)
- 1.9 MULTI-FABRIC DEPLOYMENT AND MANAGEMENT PLATFORM (18447158)
- 1.10 PARALLEL EXECUTION OF NETWORK SERVICES WITH OVERLAPPING DEVICE CONFIGURATION (18121965)
- 1.11 MICRO SEGMENT IDENTIFIER INSTRUCTIONS FOR PATH TRACING OPTIMIZATION (18234276)
- 1.12 Optimizing IPSec for Hierarchical SD-WAN (17804333)
- 1.13 UNLOCKING COMPUTING RESOURCES FOR DECOMPOSABLE DATA CENTERS (18232276)
- 1.14 PROVIDING HIGH ASSURANCE OF END-TO-END CPRI CIRCUIT IN A HIGH JITTER PACKET BASED FRONTHAUL NETWORK (17824077)
- 1.15 SOFTWARE DEFINED BRANCH SINGLE INTERNET PROTOCOL ORCHESTRATION (18448873)
- 1.16 WIRELESS LAN (WLAN) PUBLIC IDENTITY FEDERATION TRUST ARCHITECTURE (18446337)
- 1.17 Systems and Methods for Application Clustering Based on Included Libraries and Observed Events (17752987)
- 1.18 NETWORK COMPLIANCE AND ADMISSION CONTROL (18361779)
- 1.19 APPLICATION ROUTING BASED ON USER EXPERIENCE METRICS LEARNED FROM CALL TRANSCRIPTS (17828141)
- 1.20 DIFFERENTIATED TIME-DIFFERENCE OF ARRIVAL FOR ULTRA-WIDEBAND (UWB) (17929791)
- 1.21 FACILITATING VISITED NETWORK SELECTION BY A USER EQUIPMENT BASED ON SLICE CONSIDERATIONS (18449108)
- 1.22 SELECTIVE NETWORK SLICE AUTHENTICATION AND AUTHORIZATION IN A MOBILE NETWORK ENVIRONMENT (17752182)
- 1.23 USER EQUIPMENT (UE) POLICY FOR SELECTION OF RADIO ACCESS TECHNOLOGY (RAT) TYPE FOR MOBILITY FROM NON-3GPP TO 3GPP ACCESSES (17752411)
- 1.24 COOLING FAN ASSEMBLY WITH AIR GUIDER (17826520)
- 1.25 RACK-MOUNTABLE HEAT-EXCHANGER FOR MODULAR ELECTRONIC SYSTEMS (18448778)
Patent applications for Cisco Technology, Inc. on November 30th, 2023
BROADBAND OPTICAL COUPLING USING DISPERSIVE ELEMENTS (18448429)
Main Inventor
Shiyi CHEN
ADMISSION CONTROL BASED ON UNIVERSAL REFERENCES FOR HARDWARE AND/OR SOFTWARE CONFIGURATIONS (17826411)
Main Inventor
Eric A. Voit
DYNAMIC CLASSIFICATION AND OPTIMIZATION OF COMPUTING RESOURCE UTILIZATION (17826444)
Main Inventor
Vikas Nigam
MACHINE LEARNING FOR MANAGEMENT OF POSITIONING TECHNIQUES AND RADIO FREQUENCY USAGE (17804513)
Main Inventor
Gino M. CORLETO
RECONCILING COMPUTING INFRASTRUCTURE AND DATA IN FEDERATED LEARNING (17828582)
Main Inventor
Myungjin Lee
OPTICAL TRANSCEIVER MISCONNECTION DISCOVERY (18447692)
Main Inventor
Gudipaty Vasanta Rao
HYBRID MODE MULTICAST ROUTING (17826525)
Main Inventor
Aaditi Ganesh Pai
TELEMETRY REPORTING IN VEHICLE SUPER RESOLUTION SYSTEMS (18202680)
Main Inventor
David A. Maluf
MULTI-FABRIC DEPLOYMENT AND MANAGEMENT PLATFORM (18447158)
Main Inventor
Uffaz Nathaniel
PARALLEL EXECUTION OF NETWORK SERVICES WITH OVERLAPPING DEVICE CONFIGURATION (18121965)
Main Inventor
Viktoria Fordos
MICRO SEGMENT IDENTIFIER INSTRUCTIONS FOR PATH TRACING OPTIMIZATION (18234276)
Main Inventor
Clarence Filsfils
Optimizing IPSec for Hierarchical SD-WAN (17804333)
Main Inventor
Samir Thoria
UNLOCKING COMPUTING RESOURCES FOR DECOMPOSABLE DATA CENTERS (18232276)
Main Inventor
Chakradhar Kar
PROVIDING HIGH ASSURANCE OF END-TO-END CPRI CIRCUIT IN A HIGH JITTER PACKET BASED FRONTHAUL NETWORK (17824077)
Main Inventor
Manoj Kumar
SOFTWARE DEFINED BRANCH SINGLE INTERNET PROTOCOL ORCHESTRATION (18448873)
Main Inventor
Alexander YEH
WIRELESS LAN (WLAN) PUBLIC IDENTITY FEDERATION TRUST ARCHITECTURE (18446337)
Main Inventor
Malcolm Muir Smith
Systems and Methods for Application Clustering Based on Included Libraries and Observed Events (17752987)
Main Inventor
Ashutosh Kulshreshtha
NETWORK COMPLIANCE AND ADMISSION CONTROL (18361779)
Main Inventor
Malcolm M. SMITH
APPLICATION ROUTING BASED ON USER EXPERIENCE METRICS LEARNED FROM CALL TRANSCRIPTS (17828141)
Main Inventor
Grégory Mermoud
DIFFERENTIATED TIME-DIFFERENCE OF ARRIVAL FOR ULTRA-WIDEBAND (UWB) (17929791)
Main Inventor
Jerome Henry
FACILITATING VISITED NETWORK SELECTION BY A USER EQUIPMENT BASED ON SLICE CONSIDERATIONS (18449108)
Main Inventor
Srinath Gundavelli
SELECTIVE NETWORK SLICE AUTHENTICATION AND AUTHORIZATION IN A MOBILE NETWORK ENVIRONMENT (17752182)
Main Inventor
Vimal Srivastava
USER EQUIPMENT (UE) POLICY FOR SELECTION OF RADIO ACCESS TECHNOLOGY (RAT) TYPE FOR MOBILITY FROM NON-3GPP TO 3GPP ACCESSES (17752411)
Main Inventor
Irfan Ali
COOLING FAN ASSEMBLY WITH AIR GUIDER (17826520)
Main Inventor
Vic Hong Chia
RACK-MOUNTABLE HEAT-EXCHANGER FOR MODULAR ELECTRONIC SYSTEMS (18448778)
Main Inventor
Rohit Dev GUPTA