Max A Solondz

7680510, Mar 16, 2010

Nov 10, 2005

11/270930

Michael A. Crocker - Long Valley NJ, US
Michael Anthony Lynch - Denville NJ, US
Max Aaron Solondz - New Vernon NJ, US

Alcatel-Lucent USA Inc. - Murray Hill NJ

H04M 1/00

4555531, 455 78, 455101, 4551274, 455118, 4555757, 4552771, 455 88, 333 25, 333109, 333135

A transceiver system for RF communications in a wireless network includes a transceiver having first and second receivers and a transmitter. The first receiver and transmitter are connected to first antenna section. The second receiver is switchable between connection to a second antenna section and connection to the first antenna section. In a dual diversity mode, the second receiver is connected to the second antenna section, and the two receivers are tuned to the same RF channel set. Thus, multi-path faded signals in the RF channel set are received at the two antenna sections. In a cross-connected mode, two of the transceivers are used together, with the second receiver in each being connected to the first antenna section. Each transceiver supports one antenna, and the receivers in each transceiver (as well as the transmitters) are respectively tuned to different RF channel sets. Thus, system capacity is doubled in conjunction with diversity reception.

56152493, Mar 25, 1997

Nov 30, 1994

8/346805

Max A. Solondz - Madison NJ

Lucent Technologies Inc. - Murray Hill NJ

H04Q 732

379 58

A system for servicing call establishment requests in a cellular telephone system on a priority basis is described. In this system, a base station receives a call establishment request either via an external MTSO (mobile telephone switch office) or PSTN (public telephone switch network), or internally from a call establishment request, broadcasted by a mobile unit associated with a first subscriber within the cell of interest. Both the base station and the mobile unit are located in a cell (i. e. , the cell of interest) of the cellular telephone system. The base station determines whether it has a free channel to service the call establishment request. If the base station does not have a free channel to service the call establishment request, then a call processor determines a service priority level of the first subscriber. This service priority level is communicated to the base station. The base station processes the call establishment request in accordance with the service priority level of the first subscriber and service priority levels of second subscribers that are involved in telephone calls active in the cell.

6192248, Feb 20, 2001

Mar 24, 1997

8/823263

Max A. Solondz - Madison NJ

Lucent Technologies Inc. - Murray Hill NJ

H04Q 720
H04B 700

455450

A system for customizing service in a wireless communication system in accordance with a user profile, unique to each user of the system, is described. In this system, a base station receives a call establishment request either via an external MTSO (mobile telephone switch office) or PSTN (public telephone switch network), or internally from a call establishment request, broadcasted by a wireless terminal associated with a first subscriber within a cell of interest. Both the base station and the wireless terminal are located in a cell (i. e. , the cell of interest) of the wireless communication system. The base station determines whether it has a free channel, or resource, to service the call establishment request. If the base station does not have a free channel to service the call establishment request, then a call processor determines a service priority level contained in a user profile of the first subscriber. This service priority level is communicated to the base station.

20170142632, May 18, 2017

Nov 18, 2015

14/945242

- Arlington VA, US
William H. Stone - Doylestown PA, US
Max A. Solondz - New Vernon NJ, US

H04W 36/38
H04W 36/30
H04L 5/00
H04W 36/08
H04W 36/00

Techniques described herein may be used to manage a wireless telecommunications network that is subject to carrier restrictions. In a handover procedure, a source base station may assign an alternative primary carrier to a user device if the current primary carrier (or a secondary carrier thereof) is prohibited by a target base station. An unpaired downlink carrier may be aggregated to the alternative primary carrier as a supplemental downlink (SDL) carrier. New primary carriers may be created by joining unpaired downlink carriers with unpaired uplink carriers. New primary carriers may include a high frequency downlink carrier and a low frequency uplink carrier. New primary carriers may be allocated to wireless devices within a coverage area based on device type and/or a signal propagation quality of each wireless device.

20160044538, Feb 11, 2016

Aug 11, 2014

14/456756

- Arlington VA, US
Max A. Solondz - New Vernon NJ, US
Yee Sin Chan - San Jose CA, US

H04W 28/08
H04W 36/30

A wireless telecommunications system may be configured to provide wireless service via licensed and/or shared frequency bands (e.g., frequency bands that are shared with other telecommunications systems, and for which access is regulated by an external entity). A load balancing technique, described herein, may provide load balancing between licensed and shared frequency bands based on traffic type (e.g., real-time or non-real-time traffic) and/or based on device type (e.g., whether a device is typically involved in real-time communications). Techniques described herein may also provide for the staggered or gradual reduction of the transmit power of a radio associated with a shared frequency band (e.g., in response to an instruction from the external entity), in order to minimize the abrupt increase in load on other frequency bands that may result from reducing coverage of the shared frequency band.

20150326463, Nov 12, 2015

May 6, 2014

14/271100

- Basking Ridge NJ, US
Max A. Solondz - New Vernon NJ, US

Verizon Patent and Licensing Inc. - Basking Ridge NJ

H04L 12/26

A station assisted interference measurement scheme is described containing a system and devices that facilitate the measurement of interference levels or path loss values between nearby potentially interfering transmitting transceivers and candidate victim receivers. Such interference levels or path loss values are used to assist intelligent assignment of communication channels in an authorized shared access system (ASAS). Using control signals from a controller of the ASAS, suspected interfering devices transmit specialized signals on specific channels at specific times that may have a waveform and/or bit format different from typically used data communication signals. A candidate victim receiver may receive one or more of the specialized signals and measure a signal parameter of the received specialized signal. The controller of the authorized shared access system uses the measured signal parameters to determine interference between devices and improve the assignment of communication channels to mitigate interference.

20150257007, Sep 10, 2015

Mar 10, 2014

14/202901

- BASKING RIDGE NJ, US
Max A. Solondz - New Vernon NJ, US

VERIZON PATENT AND LICENSING INC. - BASKING RIDGE NJ

H04W 12/08
H04L 9/32

The described examples are usable in an authorized shared access system to provide a front end sub-band filter system and method that securely allows the selection of a front end sub-band filter for receiving signals in a shared radio frequency spectrum (SRFS). A controller manages allocation of communication channels in the SRFS using an encrypted signal. The encrypted signal is only decrypted by a filter controller of a filter selection system. Based on the decrypted signal, the filter controller instructs a filter switch which band pass filters are to be incorporated into a front end communication path. The encrypted signal prevents unauthorized users from accessing a communication channel, and the selection of a specific sub-band filter prevents transmitter interference into other communications channels in other sub-bands, and prevents the reception of signals or interference from other communications channels in other sub-bands.

20150223069, Aug 6, 2015

Feb 6, 2014

14/174308

- Basking Ridge NJ, US
MAX A. SOLONDZ - New Vernon NJ, US

VERIZON PATENT AND LICENSING INC. - Basking Ridge NJ

H04W 12/08
H04W 24/02
H04W 28/04
H04W 16/14

Devices and methods are provided for implementing a shared radio frequency spectrum allocation system. Access points and end user devices in an Authorized Shared Access System are allowed to access a channel of the shared radio frequency spectrum managed by an Authorized Shared Access System controller. Access points provide a communication, or frequency, channel over which similarly configured end user devices obtain access to data networks for client devices. Secure access to the allocated channel of the shared radio frequency spectrum is provided, thereby preventing rogue devices from gaining uncontrolled, or unauthorized, access to a channel of the shared radio frequency spectrum that may result in interference with other users of the channel including higher priority users. A secure synthesizer and secure encrypted tuning control words uniquely and securely control local channel usage.