1
Stuart Bryce, Tomasz Celinski, Adam J Kent: Unification of multimedia devices. Altec Lansing Australia, Tarolli Sundheim Covell & Tummino, July 26, 2011: US07987294 (243 worldwide citation)

Described herein are various methods and systems relating to the unification of media devices, and more specifically to the provision of wireless audio systems. In overview, two or more wireless speaker subsystem units substantially autonomously form a single wireless audio system having its own con ...


2
Tomasz Celinski, Peter Celinski, Stuart Bryce, Max Gordon Ramsay, Adam J Kent, Adam Kaczynski: Media data synchronization in a wireless network. Avega Systems, Tarolli Sundheim Covell & Tummino, May 26, 2009: US07539889 (11 worldwide citation)

A method of keeping global time in a wireless network, the method comprising the steps of: using a first 802.11 chip set to read a Time Synchronization Function (TSF) to provide an initial time base; using an interconnected clock control circuit to read the TSF time directly from the 802.11 chip set ...


3
Tomasz Celinski, Peter Celinski, Stuart Bryce, Max Gordon Ramsay, Adam J Kent, Adam Kaczynski: Media data synchronization in a wireless network. Altec Lansing Australia, Tarolli Sundheim Covell & Tummino, August 9, 2011: US07996700 (5 worldwide citation)

A method of keeping global time in a wireless network, the method includes reading a Time Synchronization Function (TSF) to provide an initial time base. An interconnected clock control circuit is employed to read the TSF time from the circuitry used to read the TSF and to implement a local clock ba ...


4
Tomasz Celinski, Peter Celinski, Stuart Bryce, Max Gordon Ramsay: Media data transfer in a network environment. Altec Lansing Australia, Tarolli Sundheim Covell & Tummino, June 11, 2013: US08462627 (1 worldwide citation)

In a wireless network environment, a method of transmitting data from a source device to a set of sink devices, the method comprising the steps of: (a) initially the source device broadcasting packet data collectively to each of the sink devices; (b) the sink devices collecting packet data and ident ...


5
Tomasz Celinski, Peter Celinski, Stuart Bryce, Max Gordon Ramsay: Media data transfer in a network environment. Dov Rosenfeld, July 5, 2007: US20070153806-A1

In a wireless network environment, a method of transmitting data from a source device to a set of sink devices, the method comprising the steps of: (a) initially the source device broadcasting packet data collectively to each of the sink devices; (b) the sink devices collecting packet data and ident ...


6
Tomasz Celinski, Peter Celinski, Stuart Bryce, Max Gordon Ramsay, Adam J Kent, Adam Kaczynski: Media data synchronization in a wireless network. Dov Rosenfeld, September 27, 2007: US20070226530-A1

A method of keeping global time in a wireless network, the method comprising the steps of: using a first 802.11 chip set to read a Time Synchronization Function (TSF) to provide an initial time base; using an interconnected clock control circuit to read the TSF time directly from the 802.11 chip set ...


7
Stuart Bryce, Tomasz Celinski, Adjam J Kent: Unification of multimedia devices. Tarolli Sundheim Covell & Tummino, October 2, 2008: US20080242222-A1

Described herein are various methods and systems relating to the unification of media devices, and more specifically to the provision of wireless audio systems. In overview, two or more wireless speaker subsystem units substantially autonomously form a single wireless audio system having its own con ...


8
Tomasz Celinski, Peter Celinski, Stuart Bryce, Max Gordon Ramsay, Adam J Kent, Adam Kaczynski: Media data synchronization in a wireless network. Avega Systems, Tarolli Sundheim Covell & Tummino, August 13, 2009: US20090204843-A1

A method of keeping global time in a wireless network, the method includes reading a Time Synchronization Function (TSF) to provide an initial time base. An interconnected clock control circuit is employed to read the TSF time from the circuitry used to read the TSF and to implement a local clock ba ...