Patent application number | Description | Published |
20090323716 | METHOD FOR REDUCING LATENCY OF WIRELESS DATA PACKET DELIVERY - A wireless data transmission method includes providing a plurality of radio frequency transmitters. A receiver is provided to receive transmissions from the transmitters. A data format including a plurality of transmission time slots is defined. Each of the transmitters is caused to independently select one of the time slots. The transmitters are used to transmit the transmissions to the receiver in the independently selected time slots. | 12-31-2009 |
20100085954 | METHOD OF OPERATING AN EVENT-DRIVEN, DELAY-CRITICAL WIRELESS SENSOR NETWORK - A method of operating wireless devices includes providing a plurality of sender nodes each having a respective message to wirelessly send to a receiver node. A probability distribution is assigned to a plurality of frequency channels such that a respective probability of selection is assigned to each frequency channel. At least two of the probabilities of selection are unequal. A respective frequency channel is probabilistically selected for each of the sender nodes according to the probability distribution. The messages are wirelessly sent from the sender nodes to the receiver node in the selected frequency channels. The receiver node is used to sample a first one of the frequency channels and a second one of the frequency channels. The second frequency channel has a higher respective probability of selection than the first frequency channel. If the receiver node sensed a signal in both the first frequency channel and the second frequency channel during the sampling, the receiver node is tuned to the first frequency channel and receives a remainder of the message on the first frequency channel. | 04-08-2010 |
20100157890 | METHOD OF WIRELESS COMMUNICATION USING AUTHENTICATION INFORMATION - A data communication method includes providing a sender node having a data packet of information. The data packet includes at least one first field and a second field. The second field has content that is dependent upon actual content of the at least one first field. The content of the second field of the data packet is transmitted from the sender node to a receiver node. The receiver node is used to predict the actual content of the first field of the data packet. The receiver node is used to calculate the content of the second field of the data packet based upon the predicted content of the first field. The predicted content of the first field is confirmed to be equivalent to the actual content of the first field. The confirming step includes comparing the calculated content of the second field to the transmitted content of the second field. | 06-24-2010 |
20100254346 | METHOD FOR PERFORMING PROACTIVE WIRELESS COMMUNICATION HANDOFFS USING A MOBILE CLIENT'S ROUTE INFORMATION - A method of handing off radio resources from a first base station to a second base station includes transmitting route information and speed information associated with a client device from the client device to the first base station or to an application server. A time is selected at which the radio resources are to be handed off from the first base station to the second base station. The selection is performed by the first base station or the application server. The selection is performed dependent upon the route information and speed information. | 10-07-2010 |
20100315981 | SYSTEM, METHOD AND APPARATUS EMPLOYING TONE AND/OR TONE PATTERNS TO INDICATE THE MESSAGE TYPE IN WIRELESS SENSOR NETWORKS - A system and method for operating a wireless network provides for sending a wakeup tone, periodically waking up from a sleep mode to listen for the wakeup tone, upon receiving the wakeup tone, listening for at least one second tone, the at least one second tone being one of (i) a tone in a frequency different from the wakeup tone and (ii) a pattern of tones including at least one frequency different from the wakeup tone, and upon receiving the at least one second tone, performing an action based on the at least one second tone. | 12-16-2010 |
20110051710 | LEARNING WIRELESS MEDIUM ACCESS CONTROL FOR DISCRETE EVENT CONTROL SYSTEMS - A wireless data transmission method includes providing a plurality of radio frequency transmitters. A receiver is provided to receive transmissions from the transmitters. A data format including a plurality of transmission time slots is defined. A first subset of the plurality of transmitters that are apt to send the transmissions simultaneously is determined. Each of the transmitters in the first subset is assigned to a different one of the time slots. A second subset of the plurality of transmitters that are apt to send the transmissions non-simultaneously is determined. Each of the transmitters in the second subset is assigned to a same one of the time slots. The transmitters are used to transmit the transmissions to the receiver in accordance with the assigning steps. | 03-03-2011 |
20110140918 | MAGNETIC FIELD COMMUNICATION ARRANGEMENT AND METHOD - An automotive communication method includes installing a sensor within a vehicle such that the sensor is submerged in a liquid during operation of the vehicle and/or substantially surrounded by a metallic structure during operation of the vehicle. A long wave magnetic signal is transmitted from the sensor. The signal is indicative of a condition sensed by the sensor. The signal is wirelessly received at a controller disposed within the vehicle. Receipt of the signal at the controller is responded to by adjusting a display and/or a setting within the vehicle. | 06-16-2011 |
20130022462 | ENERGY-EFFICIENT WIRELESS COMMUNICATION SCHEME FOR WIND TURBINES - A method of operating a wind turbine includes providing a wind turbine having a plurality of blades. A respective sensor is attached to each of the blades. First measurements of a structural characteristic of each of the blades are repeatedly taken by use of the sensors. A tolerance band is established for the measurements. Signals indicative of the first measurements are wirelessly transmitted only if the first measurements are outside of the tolerance band. The transmitted signals are received at a controller. An actuator signal is sent from the controller to at least one actuator associated with the blades. The sending is in response to the receiving of the transmitted signals. At least one of the blades is actuated dependent upon the actuator signal. The actuating is performed by the at least one actuator. Second measurements of the structural characteristic of each of the blades are repeatedly taken by use of the sensors after the actuating step. The wirelessly transmitting, receiving, sending and actuating steps are repeated for the second measurements. | 01-24-2013 |
20130170981 | METHOD FOR ROBUST WIRELESS WIND TURBINE CONDITION MONITORING - A wind turbine condition monitoring system and method are disclosed where the wind turbines include a tower, a gearbox coupled to the tower, and turbine blades coupled to the gearbox. The monitoring system includes blade sensors coupled to the blades, a hub node coupled to the gearbox and a controller. The controller is in communication with the hub node and blade sensors, and determines blade positions based on blade sensor readings. The blade sensors and hub node can include multi-axis accelerometers. The controller can wirelessly communicate with the blade sensors directly or through the hub node. Using position information, shadowing areas with obstructed communication can be avoided, node separation can be accounted for to reduce power requirements and/or interference from multiple transmitters can be avoided during node communications. | 07-04-2013 |
20130171939 | LOW COST PROXIMITY PAIRING MECHANISM IN WIRELESS PERSONAL AREA NETWORKS - A wireless networking method includes placing a master device and at least one peripheral device within proximity of each other. A radio frequency request for proximity pairing is transmitted from the peripheral device to the master device. Radio frequency proximity pairing signals implementing the proximity pairing are transmitted from the master device to the peripheral device. The proximity pairing signals are transmitted with a first level of transmission power. After the proximity pairing is complete, operational signals are transmitted from the master device to the peripheral device. The operational signals are transmitted with a second level of transmission power greater than the first level of transmission power. | 07-04-2013 |
20130223329 | Method for Performing Proactive Wireless Communication Handoffs Using a Mobile Client's Route Information - A method of handing off radio resources from a first base station to a second base station includes transmitting route information and speed information associated with a client device from the client device to the first base station or to an application server. A time is selected at which the radio resources are to be handed off from the first base station to the second base station. The selection is performed by the first base station or the application server. The selection is performed dependent upon the route information and speed information. | 08-29-2013 |
20140015658 | MAGNETIC FIELD COMMUNICATION ARRANGEMENT AND METHOD - An automotive communication method includes installing a sensor within a vehicle such that the sensor is submerged in a liquid during operation of the vehicle and/or substantially surrounded by a metallic structure during operation of the vehicle. A long wave magnetic signal is transmitted from the sensor. The signal is indicative of a condition sensed by the sensor. The signal is wirelessly received at a controller disposed within the vehicle. Receipt of the signal at the controller is responded to by adjusting a display and/or a setting within the vehicle. | 01-16-2014 |
20140022089 | Method for Robust Wireless Monitoring and Tracking of Solar Trackers in Commercial Solar Power Plants - A method of wireless communication includes providing a matrix of trackers. The matrix includes rows and columns of trackers. A number of rows and a number of columns in the matrix is determined. If the number of rows is substantially greater than the number of columns, then vertical sweeping is performed including passing data along each of the columns of trackers to an end tracker in each column. If the number of rows is substantially less than the number of columns, then horizontal sweeping is performed including passing data along each of the rows of trackers to an end tracker in each row. If the number of rows is substantially equal to the number of columns, then diagonal sweeping is performed including passing data diagonally across each of the rows and columns of trackers to an end tracker in each row and each column. The data is passed along the end trackers to a final destination data collector. | 01-23-2014 |
20140022090 | Method for Robust Wireless Monitoring and Tracking of Solar Trackers in Commercial Solar Power Plants - For each first tracker in a first subset there exists a respective second tracker in a second subset such that a distance between the first tracker and the second tracker is shorter than each distance between the second tracker and each of the other first trackers in the subset by more than a threshold distance. In a first time slot, data is wirelessly transmitted using a same first frequency from each of the first trackers in the subset of the first trackers to the respective second tracker in the subset of the second trackers. In a subsequent time slot, the data is wirelessly transmitted from each of the second trackers in the subset of the second trackers to a final destination data collector. | 01-23-2014 |
20140022091 | METHOD FOR ROBUST DATA COLLECTION SCHEMES FOR LARGE GRID WIRELESS NETWORKS - If the number of rows in a matrix of wireless devices is greater than the number of columns, then vertical sweeping is performed including passing data along each of the columns of wireless devices to an end wireless device in each column. If the number of rows is less than the number of columns, then horizontal sweeping is performed including passing data along each of the rows of wireless devices to an end wireless device in each row. If the number of rows is equal to the number of columns, then diagonal sweeping is performed including passing data diagonally across each of the rows and columns of wireless devices to an end wireless device in each row and each column. The data is passed along the end wireless devices to a final destination data collector. | 01-23-2014 |
20140022094 | MAGNETIC FIELD COMMUNICATION ARRANGEMENT AND METHOD - An automotive communication method includes installing a sensor within a vehicle such that the sensor is submerged in a liquid during operation of the vehicle and/or substantially surrounded by a metallic structure during operation of the vehicle. A long wave magnetic signal is transmitted from the sensor. The signal is indicative of a condition sensed by the sensor. The signal is wirelessly received at a controller disposed within the vehicle. Receipt of the signal at the controller is responded to by adjusting a display and/or a setting within the vehicle. | 01-23-2014 |
20140085049 | MAGNETIC FIELD COMMUNICATION ARRANGEMENT AND METHOD - An automotive communication method includes installing a sensor within a vehicle such that the sensor is submerged in a liquid during operation of the vehicle and/or substantially surrounded by a metallic structure during operation of the vehicle. A long wave magnetic signal is transmitted from the sensor. The signal is indicative of a condition sensed by the sensor. The signal is wirelessly received at a controller disposed within the vehicle. Receipt of the signal at the controller is responded to by adjusting a display and/or a setting within the vehicle. | 03-27-2014 |
20140252813 | Contactless Power Transfer System - A system for powering components in a vehicle seat enables electronic components within the vehicle seat to receive power without wires connecting the seat to a vehicle body. The system includes a power transmitter that generates an electromagnetic field, and a power receiver located within the vehicle seat and the electromagnetic field. The power receiver is configured to generate electrical power from the electromagnetic field and deliver the power to at least one component in the vehicle seat. | 09-11-2014 |
20140266034 | Short Distance Wireless Device Charging System having a Shared Antenna - A wireless charging system includes a power receiving antenna that also functions as a communication antenna. The wireless charging system includes a transmitter having a first antenna configured to transmit radio-frequency energy and a first electronic device. The first electronic device includes a second antenna, a first communication circuit operably connected to the second antenna, and a first power converter operably connected to the second antenna. The second antenna is configured to receive the radio frequency energy transmitted by the first antenna. | 09-18-2014 |