公开(公告)号：US11540135B2

公开(公告)日：2022-12-27

申请号：US16869370

申请日：2020-05-07

Applicant: Cisco Technology, Inc.

Inventor： Gautam D. Bhanage ,  Benjamin J. Cizdziel ,  Vishal S. Desai ,  Ardalan Alizadeh ,  Khashayar Mirfakhraei

IPC: H04W12/122 ,  H04W12/63 ,  H04W12/08

Abstract: Aspects described herein include a method for use with an access point (AP). The method comprises inspecting control frames received from a rogue AP, characterizing an intrusion by the rogue AP using one or more spatial reuse parameters included in the control frames, and selecting a defensive posture for the AP based on the characterization.

公开(公告)号：US11410046B2

公开(公告)日：2022-08-09

申请号：US17474191

申请日：2021-09-14

Applicant: Cisco Technology, Inc.

Inventor： Dantong Liu ,  Qing Zhao ,  Khashayar Mirfakhraei ,  Gautam Dilip Bhanage ,  Xu Zhang ,  Ardalan Alizadeh

IPC: H04L67/10 ,  G06N3/08 ,  G06N3/04 ,  H04L41/0893 ,  H04L41/50 ,  H04L67/148

Abstract: Learning-based service migration in mobile edge computing may be provided. First, a service migration policy may be created for a network that includes a plurality of edge clouds configured to provide a service to users. Next, a movement of a user receiving the service from a source edge cloud may be detected. The source edge cloud may be associated with a first area and the detected movement may be from the first area to a second area. Then, the service migration policy may be applied to determine whether to migrate the service for the user from the source edge cloud. In response to determining to migrate the service, a target edge cloud may be identified and the service for the user may be migrated from the source edge cloud to the target edge cloud. The service migration policy may then be updated based on a success of the migration.

公开(公告)号：US11368857B1

公开(公告)日：2022-06-21

申请号：US17145242

申请日：2021-01-08

Applicant: Cisco Technology, Inc.

Inventor： Sivadeep Reddy Kalavakuru ,  Ardalan Alizadeh ,  John Martin Blosco ,  Matthew Aaron Silverman ,  Gautam D. Bhanage ,  John Matthew Swartz

IPC: H04W16/28 ,  H04B17/391 ,  H04W64/00 ,  H04W24/02 ,  H04W84/12

Abstract: Optimal determination of wireless antenna configurations may be provided. A computing device may direct an antenna array of an Access Point (AP) to generate a wide beamwidth, to locate a cluster of two or more stations. Upon locating the cluster, the AP can narrow the beamwidth, and, with the narrower beamwidth, receive a key performance indicator (KPI) from at least one of the two or more stations in the cluster. The computing device may then generate a statistical model, based on the KPI and an antenna vector of the antenna array. Based on the statistical model, the computing device can determine a second antenna vector to optimize the KPI for one or more of the client stations. The computing device can then modify the antenna state of the AP to generate the determined antenna vector.

公开(公告)号：US11275366B2

公开(公告)日：2022-03-15

申请号：US16405064

申请日：2019-05-07

Applicant: Cisco Technology, Inc.

Inventor： Khashayar Mirfakhraei ,  Amir Hosein Kamalizad ,  Ardalan Alizadeh ,  Xu Zhang

IPC: G05B23/02 ,  G01D5/00

Abstract: In one embodiment, a management entity monitors for a change in a convergence rate of spatio-temporal compressive sensing measurements from a plurality of sensors in a sensor network operating according to a measurement matrix up to a halting criterion, and if the change is below a given threshold, determines whether the change is due to impulse noise or due to continued sensed measurements. If continued sensed measurements, the management entity initiates a single-dimensional compressive sensing in a spatial domain at regular time intervals, and identifies and tracks gradient clusters. In response to a change in joint spatio-temporal sparsity of tracked nodes of the gradient clusters, the management entity can then determine an updated measurement matrix based on the joint spatio-temporal sparsity of tracked nodes while satisfying one or more operating parameters, and directs at least certain sensors of the plurality of sensors to operate according to the updated measurement matrix.

公开(公告)号：US10797805B1

公开(公告)日：2020-10-06

申请号：US16521109

申请日：2019-07-24

Applicant: Cisco Technology, Inc.

Inventor： Khashayar Mirfakhraei ,  Ardalan Alizadeh ,  Xu Zhang ,  Gautam Dilip Bhanage ,  Daniel Joseph Lyons

IPC: G06N99/00 ,  H04L12/24 ,  H04W24/04 ,  H04B17/10 ,  G06N3/08 ,  H04L29/08 ,  H04W88/12 ,  H04W88/08

Abstract: In one embodiment, a process tracks measured carrier frequency offsets (CFOs) of identified transmitters over a period of activity of the identified transmitters, and determines predicted CFOs for the identified transmitters and predicted transmitter behavior as a probability of specific transmitters of the identified transmitters being active at given times based on the activity of the identified transmitters. The process may then determine, based on the predicted CFOs and predicted transmitter behavior, CFO ranges that a receiver should expect for upcoming packets, and instructs the receiver to use the CFO ranges as a prioritized list of dynamically selected CFOs to use to extract single or colliding packets from among potential interferences using frequency demodulation.

公开(公告)号：US20250085436A1

公开(公告)日：2025-03-13

申请号：US18466166

申请日：2023-09-13

Applicant: Cisco Technology, Inc.

Inventor： Peiman Amini ,  Ardalan Alizadeh ,  Jerome Henry ,  Rabe Arshad

IPC: G01S19/22 ,  G01S19/48

Abstract: Devices, systems, methods, and processes for hybrid line-of-sight (LOS)/non-line of sight (NLOS) detection are described herein. To facilitate co-existence and co-operation of a fixed network and a wireless network sharing a same frequency band without interference, a device in the wireless network can be configured to perform automatic frequency coordination (AFC). The device can accurately determine a geolocation of the device by utilizing global navigation satellite system (GNSS) data and light detection and ranging (LiDAR) data. The device can also determine whether the fixed station is in the LOS by utilizing the GNSS data and the LiDAR data. The device can further correct the geolocation and improve an accuracy of the LOS/NLOS detection by using both: the GNSS data and the LiDAR data simultaneously. The device can further control an output power when the fixed station is in the LOS, thereby avoiding the interference.

公开(公告)号：US12231987B2

公开(公告)日：2025-02-18

申请号：US17555598

申请日：2021-12-20

Applicant: CISCO TECHNOLOGY, INC.

Inventor： Matthew Aaron Silverman ,  John Matthew Swartz ,  Ardalan Alizadeh ,  Jerome Henry

IPC: H04W4/029 ,  H04B17/318 ,  H04W84/12

Abstract: This technology allows for determining the location of client devices via radio scanning for triggered orthogonal frequency-division multiple access (“OFDMA”) uplinks. Access points (“APs”) are configured for OFDMA transmissions. A first AP transmits a trigger frame on particular channel to stations in the wireless network. Neighboring APs scan channels for trigger frames (“TF”). Upon detection of a TF, neighboring APs associate a station identifier with a frequency allocation, or resource unit, in the TF. The neighboring APs receive an OFDMA uplink from the stations, determine a received signal strength indicator (“RSSI”) value for each frequency allocation in the OFDMA uplink, and transmit the RSSI values with the associated station identifier to the first AP. The first AP determines the location of each station by mapping a distance value to the RSSI values.

公开(公告)号：US12219477B2

公开(公告)日：2025-02-04

申请号：US17816877

申请日：2022-08-02

Applicant: Cisco Technology, Inc.

Inventor： Matthew Aaron Silverman ,  Pooya Monajemi ,  Ardalan Alizadeh ,  Sivadeep Reddy Kalavakuru

IPC: H04W52/02 ,  H04W52/28 ,  H04W72/0446 ,  H04W74/0816

Abstract: Network traffic interference detection and management may be provided. An infringement event by an infringing Access Point (AP) on a Restricted Target Wake Time (rTWT) transmission opportunity (TxOp) associated with a victim AP may be detected, and information associated with the infringement event may be added to an infringement list, wherein the information includes a MAC address associated with the infringing AP. A controller, may receive the infringement list and notify the infringement event to the infringing AP. The infringing AP may determine whether a transmission associated with the infringement event is low latency and high priority. When the transmission is not low latency and high priority the infringing AP may modify future transmissions based on the notification. When the transmission is low latency and high priority the infringing AP may notify the controller that the transmission is low latency and high priority. The controller may then create a negotiation between the victim AP and the infringing AP, wherein the negotiation comprises managing future transmissions of the victim AP and the infringing AP.

公开(公告)号：US12003308B2

公开(公告)日：2024-06-04

申请号：US17443474

申请日：2021-07-27

Applicant: Cisco Technology, Inc.

Inventor： Sivadeep R. Kalavakuru ,  Ardalan Alizadeh ,  Fred J. Anderson ,  John M. Blosco

IPC: H04B7/08 ,  H04W24/02

CPC classification number: H04B7/0817 ,  H04B7/0857 ,  H04B7/0865 ,  H04B7/0882 ,  H04W24/02

Abstract: In one embodiment, a system for allocating clients between radios of an access point is disclosed. The system includes a first antenna coupled to a first radio, a second antenna coupled to a second radio, and a monitoring radio coupled to the first antenna and second antenna. The system includes computer-readable instructions that cause the system to receive at the monitoring radio, a first client attribute from each of a plurality of first client devices, and a second client attribute from each of a plurality of second client devices, and provide each aforementioned attribute to an optimization function. The system determines, with the optimization function, that one of the first radio and second radio will optimize performance for at least one device of the plurality of first client devices and second client devices and steer the at least one device accordingly.

公开(公告)号：US20240072955A1

公开(公告)日：2024-02-29

申请号：US17820404

申请日：2022-08-17

Applicant: Cisco Technology, Inc.

Inventor： Mohsen Jamalabdollahi ,  Ardalan Alizadeh ,  Audrey Yazdanparast ,  Matthew Aaron Silverman

IPC: H04L5/00 ,  H04W56/00

CPC classification number: H04L5/0044 ,  H04L5/0053 ,  H04L5/0007 ,  H04W56/001

Abstract: Legacy preamble puncturing for fine timing and frequency offset estimation may be provided. Within a user information field of a trigger frame, a legacy preamble puncturing pattern may be allocated to each of a plurality of client devices wherein each of the plurality of client devices is allocated with at least one respective corresponding non-overlapping sub-channel. Next, from each of the plurality of client devices on their respective corresponding non-overlapping sub-channel, a respective corresponding preamble may be received. Time and frequency synchronization may then be performed for each of the plurality of client devices based on their respective corresponding preamble.