Immaneni
Pavan K. Immaneni, San Jose, CA US
Patent application number | Description | Published |
---|---|---|
20130179814 | ENABLING A USER TO INVOKE A FUNCTION VIA A SHORTCUT KEY IN A MULTI-WINDOW COMPUTING ENVIRONMENT - Exemplary embodiments disclose enabling a user to invoke a function via a shortcut key in a multi-window computing environment by a software component executing on the computer. The exemplary embodiments include displaying, by a software component executing on a processor of a computer, a menu that lists functions invoked in different windows by the shortcut key; receiving a user entered selection of a priority for each of the functions to create a ranked menu of functions for the shortcut key; and responsive to detecting an entering of the shortcut key via a keyboard by a user, selectively invoking one of functions listed in the shortcut key menu regardless of which window is currently active based on the priority of the functions and a number of times the shortcut key is entered. | 07-11-2013 |
Pavan Kumar Immaneni, San Jose, CA US
Patent application number | Description | Published |
---|---|---|
20110087687 | POSITION SENSITIVE TYPE-AHEAD MATCHING FOR RESOURCE NAVIGATION - A type-ahead navigation feature typically allows users to navigate to a first resource whose name begins with an inputted character or a sequence of input characters typed in quick succession. The type-ahead navigation feature may not be useful when the resource name comprises multiple parts or where a first set of characters in the resource name is irrelevant in locating a requisite resource name. Functionality can be implemented to initiate the type-ahead navigation feature against any character position in the resource name. By providing the users with an ability to specify a part of the resource name or a character position within the resource name against which the type-ahead navigation feature should be initiated, resource navigation efficiency can be improved. | 04-14-2011 |
Pramed Immaneni, Phoenix, AZ US
Patent application number | Description | Published |
---|---|---|
20100153560 | PROTOCOL AND SYSTEM FOR FIREWALL AND NAT TRAVERSAL FOR TCP CONNECTIONS - Embodiments of this invention provides a system and a protocol to enable two transmission control protocol TCP peers that exist behind one or more firewalls and network address translators NATs to automatically setup a true peer-to-peer TCP connection and exchange data without making changes to the firewall or NAT devices or existing TCP-based applications. In embodiments of this invention, the synchronization between the blind TCP peers is achieved using a system that consists of a registration server, an agent application, and a virtual network interface that together relay and replicate the control signals between the two TCP peers. In addition, embodiments of this invention are also used to traverse the NAT and establish a bi-directional peer-to-peer TCP connection in the firewall. | 06-17-2010 |
Pramod Immaneni, Phoenix, AZ US
Patent application number | Description | Published |
---|---|---|
20100153561 | METHOD AND SYSTEM FOR OUT-OF-BAND SIGNALING FOR TCP CONNECTION SETUP - Embodiments of this invention improve TCP performance over unreliable links and allow TCP connections to be set up when otherwise not possible. Embodiments of this invention include the use of out-of-band signaling for TCP to synchronizing and establishing a connection between two TCP endpoints without modification to the TCP/IP protocol suite. Embodiments of this invention provide a system that creates a control channel to enable out-of-band signaling for TCP connection establishment between two TCP endpoints. In embodiments of this invention, the control channel used for the out-of-band signaling traffic between the TCP endpoints (or peers) is achieved using a system that consists of a signaling broker, an agent application, and a virtual network interface and capture module that together create control channel for the TCP signaling traffic. Embodiments of this invention include a protocol to execute out-of-band signaling for TCP. | 06-17-2010 |
20110286471 | PROTOCOL AND SYSTEM FOR FIREWALL AND NAT TRAVERSAL FOR TCP CONNECTIONS - A system and a protocol enable transmission between two TCP peers that exist behind one or more firewalls and network address translators NATs to automatically setup a true peer-to-peer TCP connection and exchange data without making changes to the firewall or NAT devices or existing TCP-based applications. In embodiments of this invention, the synchronization between the blind TCP peers is achieved using a system that consists of a registration server, an agent application, and a virtual network interface that together relay and replicate the control signals between the two TCP peers. In addition, embodiments of this invention are also used to traverse the NAT and establish a bi-directional peer-to-peer TCP connection in the firewall. | 11-24-2011 |
20120079071 | Method and System for Out-of-Band Signaling for TCP Connection Setup - TCP performance is improved over unreliable links so as to allow TCP connections to be set up when such connections are otherwise impossible. Out-of-band signaling may be used to synchronizing and establishing a connection between two TCP endpoints without modification to the TCP/IP protocol suite. A system may create a control channel to enable out-of-band signaling for TCP connection establishment between two TCP endpoints. The control channel may be achieved using a system that includes of a signaling broker, an agent application, and a virtual network interface and a capture module that together create the control channel for the TCP signaling traffic. | 03-29-2012 |
Pramod Immaneni, Santa Clara, CA US
Patent application number | Description | Published |
---|---|---|
20120005369 | SYSTEM AND METHOD OF TCP TUNNELING - Tunneling is a mechanism used to aggregate payloads from a network protocol at or below the tunneling layer into a single packet. A user-space application establishes a Transmission Control Protocol (TCP) tunnel and encapsulates an end-to-end TCP payload into a TCP segment for transmission over a TCP connection. This enhanced TCP tunnel eliminates TCP meltdown and can be used over any network which supports TCP. The calling application either identifies the parameters of an existing TCP socket or establishes a new TCP socket. A modified transport layer uses the identified TCP connection in forming the enhanced TCP tunnel. The enhanced TCP tunnel manages the data transmission on the TCP stack to eliminate TCP meltdown. | 01-05-2012 |