Plume Design, Inc
Co-Founder and Engineering
Qualcomm Mar 2013 - Feb 2015
Vice President Software Engineering
Atheros Communications Sep 2006 - Mar 2013
Vice President Engineering, Consumer Business Unit
Atheros Communications Jul 2000 - Sep 2006
Director, Software Engineering
Sgi Aug 1997 - Jul 2000
Member of Technical Staff
Education:
Georgia Institute of Technology 1992 - 1997
Indian Institute of Technology, Delhi 1988 - 1992
Skills:
Embedded Systems Wireless Mobile Devices Software Development Wifi System Architecture Product Management Linux Distributed Systems Cloud Computing Start Ups Computer Networking Data Analytics Entrepreneurship Semiconductors Apache Spark Scalability Sdn Real Time Data Internet of Things Software As A Service Leadership
Aman Singla - Fremont CA, US Andrew M. Davidson - San Jose CA, US Michael Fine - San Francisco CA, US Kevin Hayes - Mountain View CA, US
Assignee:
Atheros Communications, Inc. - Santa Clara CA
International Classification:
H04L 9/00 H04K 1/00 G06F 15/173
US Classification:
713166, 380255, 709223
Abstract:
An access point in a wireless communication system can be configured to include multiple virtual LANS (VLANs) based on security levels, thereby allowing secure traffic to be isolated from insecure traffic. Configuring the access point can include assigning a security level to each VLAN and setting a security association for each station associated with the access point. Based on this security association, each station can be assigned to an appropriate VLAN.
Paul Husted - San Jose CA, US Huanchun Ye - Cupertino CA, US Aman Singla - Fremont CA, US
International Classification:
H03D001/06
US Classification:
375346000
Abstract:
Wireless local area networks must work in less than ideal environments, including environments having externally and internally generated interfering RF signals. Interfering signals can cause significant problems with signal detecting, amplifier gain adjustment, and signal decoding. Various parameters of the WLAN receiver can be adjusted to mitigate the effects of interference. By selectively adjusting sets of these parameters, receiver sensitivity and interference immunity can be advantageously balanced. In one embodiment, adjustments to these parameter sets can be made in response to different sources of interference.
Network Operation Center Dashboard For Cloud-Based Wi-Fi Systems
- Palo Alto CA, US Robert Miller - Menlo Park CA, US Patrick Li - Palo Alto CA, US Adam Hotchkiss - Burlingame CA, US Aman Singla - Saratoga CA, US William McFarland - Portola Valley CA, US
International Classification:
H04W 24/02 H04L 12/26 H04L 12/24
Abstract:
System and methods for managing a Wi-Fi network of a plurality of Wi-Fi networks from a cloud-based Network Operations Control (NOC) dashboard include, subsequent to creating an account for a user of the Wi-Fi network, receiving data associated with the Wi-Fi network from the one or more access points; providing a display associated with the Wi-Fi network based on the data, wherein the display comprises a network topology and one or more tabs providing information related to operation of the Wi-Fi network; updating the display based on one or more inputs received, wherein the updating updates one or more of the network topology and the one or more tabs; and performing one or more operations via the NOC dashboard to one of manage, control, and troubleshoot the Wi-Fi network.
Network Operation Center Dashboard For Cloud-Based Wi-Fi Systems
- Palo Alto CA, US Robert MILLER - Menlo Park CA, US Patrick LI - Palo Alto CA, US Adam HOTCHKISS - Burlingame CA, US Aman SINGLA - Saratoga CA, US William MCFARLAND - Portola Valley CA, US
International Classification:
H04W 24/02 H04L 12/24 H04L 12/26
Abstract:
System and methods for managing a Wi-Fi network of a plurality of Wi-Fi networks from a cloud-based Network Operations Control (NOC) dashboard include, subsequent to creating an account for a user of the Wi-Fi network, receiving data associated with the Wi-Fi network from the one or more access points; providing a display associated with the Wi-Fi network based on the data, wherein the display comprises a network topology and one or more tabs providing information related to operation of the Wi-Fi network; updating the display based on one or more inputs received, wherein the updating updates one or more of the network topology and the one or more tabs; and performing one or more operations via the NOC dashboard to one of manage, control, and troubleshoot the Wi-Fi network.
- Palo Alto CA, US Aman SINGLA - Saratoga CA, US Abhishek KUMAR - Palo Alto CA, US Nate AMAROSE - Nevada City CA, US Paul WHITE - Burlingame CA, US Michal KAZIOR - Wroclaw, PL Mladen BARJAKTAREVIC - Ljubljana, SI Sameer VAIDYA - Saratoga CA, US
International Classification:
H04W 12/08 H04L 29/06 H04W 12/06 H04W 48/06
Abstract:
A Wi-Fi network includes one or more access point devices configured to connect to one or more devices; wherein the Wi-Fi network is designated by a Service Set Identifier (SSID); wherein each Wi-Fi client device accesses the Wi-Fi network using the SSID and a key of a plurality of keys each being a password or certificate for the Wi-Fi network; and wherein each of the plurality of keys designates an access zone of a plurality of access zones each defining rules for network and/or device access such that the one or more access point devices provide selective access based on which of the plurality of keys is used for each of the one or more devices.
Optimization On Multiple Timescales In A Distributed Wi-Fi System
- Palo Alto CA, US William MCFARLAND - Portola Valley CA, US Aman SINGLA - Saratoga CA, US Sameer VAIDYA - Saratoga CA, US
International Classification:
H04L 12/24 H04L 29/08
Abstract:
Systems and methods for optimizing a distributed Wi-Fi network via a cloud based system using a plurality of control loops over multiple timescales include receiving and storing data measurements associated with operation of the distributed Wi-Fi network; performing one or more of: a fast loop optimization of operating parameters associated with the distributed Wi-Fi network based on one or more first metrics and associated first thresholds; and a slow loop optimization of the operating parameters associated with the distributed Wi-Fi network based on one or more second metrics and associated second thresholds, wherein a timescale of the fast loop optimization is finer than a timescale of the slow loop optimization; and providing the operating parameters to the distributed Wi-Fi network for configuration thereof.
Claiming Network Devices For A Home Network In A Distributed Wi-Fi Network
- Palo Alto CA, US Hong FAN - San Jose CA, US Aman SINGLA - Saratoga CA, US Kiran EDARA - Cupertino CA, US Kaixiang HU - Fremont CA, US
International Classification:
H04L 29/08 H04W 4/00
Abstract:
Systems and methods implemented through a user device, for claiming network devices for a home network in a distributed Wi-Fi network includes discovering a newly powered on access point; claiming the newly powered on access point for the home network; and relaying the claimed newly powered on access point to a cloud controller via a disjoint network from the home network, wherein the home network is restricted by the cloud controller to only operate with claimed access points. The discovering, the claiming, and the relaying can be performed by a mobile application executed on the user device.
Distributed Wi-Fi Network Visualization And Troubleshooting
- Palo Alto CA, US Adam HOTCHKISS - Burlingame CA, US Srinivasa TAGIRISA - Cupertino CA, US Aman SINGLA - Saratoga CA, US Kiran EDARA - Cupertino CA, US Balaji RENGARAJAN - Campbell CA, US Evan RUSACKAS - San Francisco CA, US Evan JENG - Los Altos Hills CA, US Kaixiang HU - Fremont CA, US William MCFARLAND - Portola Valley CA, US
International Classification:
H04W 24/08 H04W 48/16 H04W 24/04
Abstract:
Systems and methods for visualization and troubleshooting of a distributed Wi-Fi network, implemented through one of a mobile application and a web page, include, responsive to obtaining data from the distributed Wi-Fi network, providing a map of the distributed Wi-Fi network based on the obtained data, wherein the map includes a first icon designating a gateway node, one or more second icons each designating one or more nodes, and connectors between the gateway node, wherein the gateway node and the one or more nodes are in a tree topology; providing a visualization in the map based on a current operational status of the distributed Wi-Fi network from the obtained data, wherein the visualization comprises a plurality of visual indicators of the current operational status; and providing notifications based on the current operational status.
License Records
Aman Singla
License #:
07084 - Active
Category:
Accountants
Issued Date:
Mar 12, 2014
Expiration Date:
Jun 30, 2019
Type:
Certified Public Accountant
Googleplus
Aman Singla
Work:
B.l.kashyap & sons ltd. - Intern
Education:
P.e.c university f techonology, Govt. engg. college(GZSCET), Bti, Vidya mandir