1
John David Downie, James Scott Sutherland, Richard Edward Wagner, Matthew Scott Whiting, Dale Alan Webb, Keith Allen Hoover, Aravind Chamarti: RFID systems and methods for automatically detecting and/or directing the physical configuration of a complex system. Corning Cable Systems, Joseph M Homa, March 20, 2012: US08138925 (90 worldwide citation)

A radio-frequency identification (RFID)-based configuration detection system for automatically detecting, directing, and/or configuring the physical configuration of a complex system constituted by a set of one or more types of mateable components. The RFID configuration detection system utilizes a ...


2
Michael Sauer, Richard S Vodhanel, Martyn N Easton, Aravind Chamarti, Jack Winters: Radio-over-fiber (RoF) wireless picocellular system with combined picocells. Corning Cable Systems, C Keith Montgomery, December 7, 2010: US07848654 (26 worldwide citation)

A radio-over-fiber (RoF) wireless picocellular system adapted to form an array of substantially non-overlapping individual picocells by operating adjacent picocells at different frequencies is operated to form one or more combined picocells. The combined picocells are formed from two or more neighbo ...


3
Aravind Chamarti, John David Downie, James Scott Sutherland, Richard Edward Wagner, Dale Alan Webb, Matthew Scott Whiting: Components, systems, and methods for associating sensor data with component location. Corning Incorporated, September 11, 2012: US08264366 (24 worldwide citation)

Components having one or more sensors adapted to provide sensor data relating to a condition(s) of the component are disclosed. The component is adapted to communicate with another mating component to associate sensor data with identity information of the mating component. The sensor and identity in ...


4
Aravind Chamarti, John David Downie, Bradley Richard Thurow, James Scott Sutherland, Richard Edward Wagner, Matthew Scott Whiting: Antenna systems for passive RFID tags. Corning Cable Systems, Kwadjo Adusei Poku, December 21, 2010: US07855697 (10 worldwide citation)

Antenna systems for passive radio-frequency identification (RFID) tags. The antenna systems have a very small form factor with good power harvesting and good performance in proximity to other antennas. The antenna system includes at least one, and preferably two, parallel serpentine antenna elements ...


5
Khodadad Varahramyan, Mangilal Agarwal, Sudhir Shrestha, Jeevan Kumar Vemagiri, Aravind Chamarti, Sireesha Ramisetti: Transmission delay based RFID tag. Louisiana Tech Research Foundation, Jones Walker Waechter Poitevent Carrere & Denegre, May 15, 2012: US08179231 (8 worldwide citation)

A chipless RFID tag system having a transmitter sending an input signal and a tag substrate. The tag substrate has at least one microstrip and the microstrip has a first portion with a first impedance and a second portion with a second impedance different from the first impedance. The system further ...


6
Igor Berlin, Aravind Chamarti, Yuval Zinger: Multiple application module or unit. Corning Optical Communications, C Keith Montgomery, January 29, 2019: US10194299

A wireless distribution system (WDS) is configured for transmitting a downlink signal or for receiving an uplink signal. A computing device configured to serve as a client device to the WDS includes a memory; a multiple applications processor in communication with the memory and configured to execut ...


7
Aravind Chamarti: Multiple application modules (MAMs) for monitoring signals in components in wireless distribution systems, including distributed antenna systems (DASs), and related systems and methods. Corning Optical Communications, C Keith Montgomery, March 27, 2018: US09930540

Multiple application modules (MAMs) for monitoring of signals in components in wireless distribution systems (WDSs), including but not limited to distributed antenna systems (DASs) are disclosed. The MAMs are wireless telecommunication circuitry associated with wireless distribution components in a ...


8
Khodadad Varahramyan, Mangilal Agarwal, Sudhir Shrestha, Jeevan Kumar Vemagiri, Aravind Chamarti, Sireesha Ramisetti, Mercyma Dee Balachandran: Transmission delay based RFID tag. Louisiana Tech University Research Foundation a division of Louisiana Tech University Foundation, Jones Walker, May 27, 2014: US08736452

A chipless RFID tag system having a transmitter sending an input signal and a tag substrate. An ID generation circuit on the tag relies on microstrip transmission line patterns which are pre-designed to generate a unique code. The ID generating circuit may be designed based upon the transmission lin ...


9
Aravind Chamarti, William Patrick Cune: Simulating service changes in an application module (AM) in a wireless communications system (WCS) to simulate site walks in the wireless communications system. Corning Optical Communications, C Keith Montgomery, August 14, 2018: US10050728

Simulating sector changes in an application module (AM) in a wireless communications system (WCS) to simulate site walks in the WCS. The AMs are wireless telecommunication circuitry wired or wirelessly associated with wireless communications system components in a WCS. In one embodiment, the AMs are ...


10
Aravind Chamarti: Automated analysis of multiple-input, multiple-output (MIMO) communications stream distribution to remote units in a distributed communication system (DCS) to support configuration of interleaved MIMO communications services. Corning Research & Development Corporation, C Keith Montgomery, January 22, 2019: US10187127

Distributed communications systems (DCSs) supporting automated analysis of MIMO communications stream distribution to remote units in a distributed communication system (DCS) to support configuration of interleaved MIMO communications services are disclosed. In this regard, MIMO analysis circuits ca ...