Arati B Manjeshwar

7483403, Jan 27, 2009

Nov 21, 2002

10/301478

Falk Herrmann - Mountain View CA, US
Arati Manjeshwar - Sunnyvale CA, US
Jason Hill - Oakland CA, US

Robert Bosch GmbH - Stuttgart

H04B 7/00
H04Q 7/00
H04L 12/28

370310, 370254

A method to wirelessly network a sensor/actuator node is described. The sensor/actuator node is installed in a sensor/actuator node network and arranged in a hierarchical manner with a plurality of node levels and a cluster head network. A unique node identifier is assigned to the sensor node and the sensor node network is initialized. The sensor node is woken-up to perform a task and then set to an active low power mode.

7536194, May 19, 2009

Sep 30, 2005

11/239837

Arati Manjeshwar - Chandler AZ, US
Lakshmi Venkatraman - Mountain View CA, US
Bhaskar Srinivasan - Menlo Park CA, US

Robert Bosch GmbH - Stuttgart

H04B 7/00

455515, 455418, 370503, 370507, 370509, 370512, 370514, 370520, 370525, 3408252, 34082521, 375356

A method and system to synchronize a first device and a second device includes generating a first tone by the first device, the first tone one of including an identity of the second device and generated at a predefined time, receiving the first tone by the second device, setting a clock of the second device based on the received first time, and sending an acknowledgment by the second device to the first device.

7613146, Nov 3, 2009

Sep 30, 2005

11/239836

Arati Manjeshwar - Chandler AZ, US
Lakshmi Venkatraman - Mountain View CA, US
Bhaskar Srinivasan - Menlo Park CA, US

Robert Bosch GmbH - Stuttgart

H04H 20/67

370329, 370343, 370347

A method for transmitting data from a sender node to a receiver node in a wireless network including (a) sampling a main network frequency and at least one backup frequency, (b) transmitting a message on the main network frequency without using a multiple access protocol, (c) transmitting the message on the main network frequency, using the multiple access protocol exchange, if an acknowledgement is not received, (d) transmitting the message on at least one backup frequency, using a multiple access protocol, if the main network frequency is busy after (c), (e) repeating (c) and (d) for a predefined number of time slots, until an acknowledgement is received, (f) transmitting the message on each backup frequency, using the multiple access protocol, until an acknowledgment is received, and (g) performing an exponential backoff and subsequent transmission of the message if an acknowledgement is still not received after (a) through (f).

7813382, Oct 12, 2010

Sep 30, 2005

11/241298

Arati Manjeshwar - Chandler AZ, US
Lakshmi Venkatraman - Mountain View CA, US
Bhaskar Srinivasan - Menlo Park CA, US

Robert Bosch GmbH - Stuttgart

H04J 3/06
H04J 3/08
H04L 12/56

370503, 370301, 370326, 3703954, 370508, 370519, 370507, 370509, 370510, 370512, 370520

A method of synchronizing a network includes transmitting a tone signal to convey time information and setting a local time according to the conveyed time information. The method may also include detecting an occurrence of a predefined aspect of the tone signal, and setting a local time based on the occurrence of the predefined aspect of the signal.

7835383, Nov 16, 2010

Sep 30, 2005

11/241639

Arati Manjeshwar - Chandler AZ, US
Falk Herrmann - Fairport NY, US

Robert Bosch GmbH - Stuttgart

H04L 12/413
H04L 12/43
H04J 3/02

370445, 370458, 370462

A method for shared access of a communication channel is provided, which includes dividing access to the communication channel into a plurality of time slots, and allocating the time slots, at least partially, based on a priority of use of the communication channel.

8054864, Nov 8, 2011

Aug 8, 2008

12/188417

Abtin Keshavarzian - Palo Alto CA, US
Arati Manjeshwar - Chandler AZ, US

Robert Bosch GmbH - Stuttgart

H04B 1/00

375130, 375132, 375354, 375355, 375356

A method of synchronizing wireless devices includes establishing a recurring sequence of frequency channels at which the wireless devices are to communicate. The frequency channels are divided into a plurality of groups. Synchronization information is transmitted at a respective first frequency channel in each of the groups of frequency channels during a first sampling time period. One of the groups of frequency channels is selected. A wireless device is used to sample each of the frequency channels in the selected group during the first sampling time period. Non-synchronization information is transmitted after the first sampling time period. Synchronization information is transmitted at a next respective frequency channel in each of the groups of frequency channels during a next sampling time period. The next sampling time period occurs after the transmitting of the non-synchronization information.

8194571, Jun 5, 2012

Dec 29, 2008

12/344767

Falk Herrmann - Mountain View CA, US
Arati Manjeshwar - Sunnyvale CA, US
Jason Hill - Oakland CA, US

Robert Bosch GmbH - Stuttgart

H04L 12/28

370254, 370310, 370342, 370350

A method to wirelessly network a sensor/actuator node is described. The sensor/actuator node is installed in a sensor/actuator node network and arranged in a hierarchical manner with a plurality of node levels and a cluster head network. A unique node identifier is assigned to the sensor node and the sensor node network is initialized. The sensor node is woken-up to perform a task and then set to an active low power mode.

8213482, Jul 3, 2012

Sep 26, 2011

13/245429

Abtin Keshavarzian - Palo Alto CA, US
Arati Manjeshwar - Chandler AZ, US

H04B 1/00

375132, 375130, 375354, 375355, 375356

A method of synchronizing wireless devices includes establishing a recurring sequence of frequency channels at which the wireless devices are to communicate. The frequency channels are divided into a plurality of groups. Synchronization information is transmitted at a respective first frequency channel in each of the groups of frequency channels during a first sampling time period. One of the groups of frequency channels is selected. A wireless device is used to sample each of the frequency channels in the selected group during the first sampling time period. Non-synchronization information is transmitted after the first sampling time period. Synchronization information is transmitted at a next respective frequency channel in each of the groups of frequency channels during a next sampling time period. The next sampling time period occurs after the transmitting of the non-synchronization information.