Patent application number | Description | Published |
20090238201 | UPLINK TRANSMITTER IN A RANDOM PHASE MULTIPLE ACCESS COMMUNICATION SYSTEM - A method for communicating through a multiple access communication interface includes receiving a first signal from a first tag, where the first signal is spread using a predetermined pseudo-noise (PN) code, and further where the first signal includes first payload data. A second signal is received from a second tag. The second signal is spread using the predetermined PN code, and the second signal includes second payload data. The first payload data from the first signal is identified at least in part with a PN array despreader. The second payload data from the second signal is also identified at least in part with the PN array despreader. | 09-24-2009 |
20090238245 | DESPREADING SPREAD SPECTRUM DATA - A method for de-spreading spread data includes receiving a data stream by multiple access communication where the received data stream is spread using a pseudo-noise (PN) code; multiplying a first portion of the received data stream including data from a first user by a first portion of a PN signal to obtain a first product; providing the first product to a first counter; multiplying a second portion of the received data stream including data from a second user by the first portion of the PN signal to obtain a second product; providing the second product to a second counter; and determining whether the first portion of the PN signal and the second portion of the PN signal produce valid sequences based at least in part on the first product and the second product. | 09-24-2009 |
20090274164 | RANDOM PHASE MULTIPLE ACCESS COMMUNICATION INTERFACE SYSTEM AND METHOD - A method for communicating through a multiple access communication interface includes receiving a first signal from a first tag, where the first signal is spread using a predetermined pseudo-noise (PN) code, and further where the first signal includes first payload data. A second signal is received from a second tag. The second signal is spread using the predetermined PN code, and the second signal includes second payload data. The first payload data from the first signal is identified at least in part with a PN array despreader. The second payload data from the second signal is also identified at least in part with the PN array despreader. | 11-05-2009 |
20100246458 | CONTROLLING POWER IN A SPREAD SPECTRUM SYSTEM - A technique and system is disclosed for controlling power in a spread spectrum system. A fast slot of a frame is received where the frame is divided into a number of fast slots. The received power is measured on the fast slot. A second fast slot is transmitted at a second time with a transmit power setting and a variable spreading factor. The transmit power setting and the variable spreading factor is adjusted based on the received power. The variable spreading factor affects the total number of fast slots that are transmitted. | 09-30-2010 |
20100281339 | FORWARD ERROR CORRECTION MEDIA ACCESS CONTROL SYSTEM - This disclosure relates to method, device and system for compensating for information not received in a communication system. An encoded signal is created from a source signal using a forward error correction technique. A first predetermined part of the encoded signal is transmitted. A second predetermined part of the encoded signal is transmitted. Transmission of the second predetermined part of the encoded signal is terminated after a determination of a successful decoding of the encoded signal is made. | 11-04-2010 |
20130293389 | GAS MONITORING SYSTEM USING A RANDOM PHASE MULTIPLE ACCESS SYSTEM - Methods, systems, and apparatuses, including computer programs encoded on computer-readable media, are configured for receiving monitor data from a gas meter. A data stream is created based upon the monitor data. The data stream is spread with a common pseudo-noise (PN) code that is used by a plurality of nodes in communication with an access point. The spread data stream is transmitted at a first time based on a slot start time and a first randomly selected timing offset. The spread data stream is transmitted while at least a portion of a second spread data stream is transmitted at a second time based on the slot start time and a second randomly selected timing offset. The second spread data stream is spread with the common PN code. | 11-07-2013 |
20130294483 | SMART TRANSFORMER USING A RANDOM PHASE MULTIPLE ACCESS SYSTEM - Methods, systems, and apparatuses, including computer programs encoded on computer-readable media, are configured for receiving monitor data from a smart transformer. A data stream is created based upon the monitor data. The data stream is spread with a common pseudo-noise (PN) code that is used by a plurality of nodes in communication with an access point. The spread data stream is transmitted at a first time based on a slot start time and a first randomly selected timing offset. The spread data stream is transmitted while at least a portion of a second spread data stream is transmitted at a second time based on the slot start time and a second randomly selected timing offset. The second spread data stream is spread with the common PN code. | 11-07-2013 |
20130301682 | LIGHT MONITORING SYSTEM WITH ANTENNA DIVERSITY - Methods, systems, and apparatuses, including computer programs encoded on computer-readable media, for receiving monitor data from a lighting equipment monitor. A data stream is created based upon the monitor data. A first signal strength of a signal from the access point received at a first antenna is measured. A second signal strength of the signal from the access point received at a second antenna is measured. One or more antennae are selected to transmit the spread data stream based upon the first signal strength and the second signal strength. The data stream is transmitted using the one or more selected antennae. | 11-14-2013 |
20130301683 | FAULT CIRCUIT INDICATOR SYSTEM USING A RANDOM PHASE MULTIPLE ACCESS SYSTEM - Methods, systems, and apparatuses, including computer programs encoded on computer-readable media, are configured for receiving monitor data from a fault circuit indicator. A data stream is created based upon the monitor data. The data stream is spread with a common pseudo-noise (PN) code that is used by a plurality of nodes in communication with an access point. The spread data stream is transmitted at a first time based on a slot start time and a first randomly selected timing offset. The spread data stream is transmitted while at least a portion of a second spread data stream is transmitted at a second time based on the slot start time and a second randomly selected timing offset. The second spread data stream is spread with the common PN code. | 11-14-2013 |
Patent application number | Description | Published |
20090238202 | RANDOM PHASE MULTIPLE ACCESS SYSTEM WITH MESHING - A method of communicating through a random phase multiple access network is provided. A signal that has been spread using a pseudo-noise code and offset by a random timing offset and that contains payload data is received from a device. A destination is selected for the payload data based on a characteristic of the multiple access network. The payload data is transmitted to the selected destination. | 09-24-2009 |
20090238243 | RANDOM PHASE MULTIPLE ACCESS SYSTEM WITH LOCATION TRACKING - A method of determining the location of a communication tag in a random phase multiple access communication network is disclosed. A ranging request signal that is spread using a first pseudo-noise code and offset with a first random timing offset is transmitted at a first time. A ranging response signal that is spread using a second pseudo-noise code and offset with a second random timing offset is received at a second time. A propagation delay that is dependent on the first time and the second time is calculated. | 09-24-2009 |
20090238248 | SPREAD SPECTRUM WITH DOPPLER OPTIMIZATION - A method of compensating for doppler phase errors includes receiving a signal at a receiver wherein the signal is spread using a pseudo-noise code, dividing the signal into a plurality of smaller coherent units and then compensating for induced doppler phase errors by analyzing the plurality of smaller coherent units. Analysis may include producing a plurality of coherent sums by summing across the smaller coherent units and then summing non-coherently the plurality of coherent sums. Analysis may also include demodulating a symbol from the smaller coherent units. A modulation technique may be selected from a plurality of modulation techniques and then be used to encode and transmit a symbol stream. | 09-24-2009 |
20090239550 | RANDOM PHASE MULTIPLE ACCESS SYSTEM WITH LOCATION TRACKING - A method of determining the location of a communication tag in a random phase multiple access communication network is disclosed. A ranging request signal that is spread using a first pseudo-noise code and offset with a first random timing offset is transmitted at a first time. A ranging response signal that is spread using a second pseudo-noise code and offset with a second random timing offset is received at a second time. A propagation delay that is dependent on the first time and the second time is calculated. | 09-24-2009 |
20100195553 | CONTROLLING POWER IN A SPREAD SPECTRUM SYSTEM - A technique and system is disclosed for controlling power in a spread spectrum system. A fast slot of a frame is received where the frame is divided into a number of fast slots. The received power is measured on the fast slot. A second fast slot is transmitted at a second time with a transmit power setting and a variable spreading factor. The transmit power setting and the variable spreading factor is adjusted based on the received power. The variable spreading factor affects the total number of fast slots that are transmitted. | 08-05-2010 |
20100238974 | DOWNLINK COMMUNICATION - A method for conserving bandwidth in a communication system includes spreading a data frame and a broadcast frame. A complex data stream having a first component and a second component is generated. The data frame is assigned to the first component and the broadcast frame is assigned to the second component. The complex data stream is transmitted to a tag. | 09-23-2010 |
20100254435 | METHOD AND SYSTEM FOR UPLINK COMMUNICATION - A method for conserving bandwidth in a communication system includes spreading a data frame using a first pseudo-noise (PN) spreader. A broadcast frame is spread using a second PN spreader. A complex data stream having a first component and a second component is generated. The data frame is assigned to the first component and the broadcast frame is assigned to the second component. The complex data stream is transmitted to a tag. | 10-07-2010 |
20110116472 | HANDOVER PROCESSING IN MULTIPLE ACCESS POINT DEPLOYMENT SYSTEM - This disclosure relates to method, device and system for performing handover processing. A roaming list is configured at a receiver which includes multiple entries. Each entry of the roaming list includes receive parameters. A measurement operation is performed on an entry of the roaming list. A transmitter is set based on the measurement operation. Finally, an uplink signal is transmitted to an access point at a time based on a slot start time and a random timing offset. The uplink signal is transmitted while a second signal is transmitted from another node. | 05-19-2011 |
20110128938 | HANDOVER PROCESSING IN MULTIPLE ACCESS POINT DEPLOYMENT SYSTEM - This disclosure relates to method, device and system for performing handover processing. A roaming list is configured at a receiver which includes multiple entries. Each entry of the roaming list includes receive parameters. A measurement operation is performed on an entry of the roaming list. A transmitter is set based on the measurement operation. Finally, an uplink signal is transmitted to an access point at a time based on a slot start time and a random timing offset. The uplink signal is transmitted while a second signal is transmitted from another node. | 06-02-2011 |
20110131468 | ERROR DETECTION SYSTEM - This disclosure relates to method, device and system for detecting errors in a communication system. A signal is received from a transmitter at a receiver wherein the signal includes a data portion and a result of a hash function. The hash function is computed in part from a transmitter identification code. The receiver determines if the result of the hash function matches both the data portion and the transmitter identification code. The receiver discards the signal if the result of the hash function does not match both the data portion and the transmitter identification code of the transmitter. | 06-02-2011 |
20110134965 | RSSI MEASUREMENT MECHANISM IN THE PRESENCE OF PULSED JAMMERS - This disclosure relates to method, device and system for controlling power in a communication system. A plurality of power levels is measured from a received signal that includes a pulsed noise source. The received signal is correlated with a known sequence creating a correlation metric. A signal power is determined based on the correlation metric and the plurality of power levels. An uplink signal is transmitted at a transmit power that is based on the signal power. | 06-09-2011 |
20110219283 | SIGNAL QUALITY MEASUREMENT SYSTEM - This disclosure relates to method, device and system for measuring signal quality in a communication system. An access point receives an uplink signal from a transmitter. The uplink signal contains a data portion and a result of a hash function. The uplink signal is received at a time based on a slot start time and a random timing offset and is received while a portion of a second signal is received from a second transmitter. The access point measures a noncoherent energy metric for the uplink signal. The access point computes a local result of the hash function using the data portion. The uplink signal is then discarded if the result of the hash function matches the local result of the hash function but the noncoherent energy metric is below a threshold value. | 09-08-2011 |
20110320908 | USER DATA BROADCAST MECHANISM - This disclosure relates to method, device and system for detecting errors in a communication system. A signal is received from a transmitter at a receiver wherein the signal includes a data portion and a result of a hash function. The hash function is computed in part from a transmitter identification code. The receiver determines if the result of the hash function matches both the data portion and the transmitter identification code. The receiver discards the signal if the result of the hash function does not match both the data portion and the transmitter identification code of the transmitter. | 12-29-2011 |
20120113858 | HANDOVER PROCESSING IN MULTIPLE ACCESS POINT DEPLOYMENT SYSTEM - This disclosure relates to method, device and system for determining transmit power in a communication system. A node receives an access point interference signal from an access point. The access point interference signal is measured by the access point based in part on an inference from an external system. The node determines a transmit power based in part on the access point interference signal. The node then transmits an uplink signal at the transmit power. | 05-10-2012 |
20120114015 | SYNCHRONIZED SYSTEM CONFIGURATION - Methods, systems, and apparatuses, including computer programs encoded on computer-readable media, for receiving a timing signal at a first access point, wherein the timing signal is also received at a second access point. A first time is synchronized at the first access point with a second time at the second access point based upon the received timing signal. The first access point is configured with a spreading code and a transmit frequency. The second access point is also configured with the spreading code and the transmit frequency. The spreading code of the first access point is synchronized with the spreading code of the second access point using the timing signal. A message is transmitted from the first access point to the node and from the second access point to the node. | 05-10-2012 |
20120134391 | POWER DETECTION IN A SPREAD SPECTRUM SYSTEM - This disclosure relates to method, device and system for selecting a device for communication in a communication system. A node receives a spread signal from a first transmitter and a second transmitter. The node despreads the spread signal with a first spreading code into a first frame and determines a first receive signal strength indicator (RSSI) from the first frame. The node despreads the spread signal with a second spreading code into a second frame and determines a second RSSI from the second frame. The node selects an access point based in part on the first RSSI and the second RSSI. The node transmits an uplink signal to the access point based on a slot start time and a random timing offset. The node transmits while a portion of a second signal is transmitted from a second node such that both the uplink signal and the second signal are received. | 05-31-2012 |
20120188970 | FORWARD ERROR CORRRECTION MEDIA ACCESS CONTROL SYSTEM - This disclosure is directed at a method, device and system for efficiently correcting errors in a communication system. An encoded signal is created from a source signal using a forward error correction technique. The encoded signal is split into a plurality of units. A first unit of the plurality of units is transmitted to a receiver through a first route. A second unit of the plurality of units is transmitted to the receiver through a second route. | 07-26-2012 |
20120219037 | LIGHT MONITORING SYSTEM USING A RANDOM PHASE MULTIPLE ACCESS SYSTEM - Methods, systems, and apparatuses, including computer programs encoded on computer-readable media, for receiving monitor data from a lighting equipment monitor. A data stream is created based upon the monitor data. The data stream is spread with a common pseudo-noise (PN) code that is used by a plurality of nodes in communication with an access point. A frequency offset to the spread data stream based at least in part on a timing of the access point is applied. The spread data stream is transmitted with a randomly selected timing offset. | 08-30-2012 |
20120307810 | RANDOM TIMING OFFSET DETERMINATION - Methods, systems and instructions stored on computer-readable media for generating, at a first node, a plurality of data units. The plurality of data units are spread with a common pseudo-noise (PN) code that is used by a plurality of nodes, including the first node and a second node, that are in communication with an access point. A random timing offset is determined, and a first data unit is transmitted to the access point at a first time based upon a slot start time and the random timing offset. The first data unit is transmitted while at least a portion of a second signal is transmitted from the second node such that both the first data unit and the second signal are received by the access point. The second signal is transmitted at a second time based on the slot time and a second random timing offset. | 12-06-2012 |
20130128872 | RANDOM TIMING OFFSET DETERMINATION - Methods, systems and instructions stored on computer-readable media for generating, at a first node, a plurality of data units. The plurality of data units are spread with a common pseudo-noise (PN) code that is used by a plurality of nodes, including the first node and a second node, that are in communication with an access point. A random timing offset is determined, and a first data unit is transmitted to the access point at a first time based upon a slot start time and the random timing offset. The first data unit is transmitted while at least a portion of a second signal is transmitted from the second node such that both the first data unit and the second signal are received by the access point. The second signal is transmitted at a second time based on the slot time and a second random timing offset. | 05-23-2013 |
20130272278 | ELECTRIC MONITORING SYSTEM USING A RANDOM PHASE MULTIPLE ACCESS SYSTEM - Methods, systems, and apparatuses, including computer programs encoded on computer-readable media, are configured for receiving monitor data from an electric meter. A data stream is created based upon the monitor data. The data stream is spread with a common pseudo-noise (PN) code that is used by a plurality of nodes in communication with an access point. The spread data stream is transmitted at a first time based on a slot start time and a first randomly selected timing offset. The spread data stream is transmitted while at least a portion of a second spread data stream is transmitted at a second time based on the slot start time and a second randomly selected timing offset. The second spread data stream is spread with the common PN code. | 10-17-2013 |
20130300576 | WATER MONITORING SYSTEM USING A RANDOM PHASE MULTIPLE ACCESS SYSTEM - Methods, systems, and apparatuses, including computer programs encoded on computer-readable media, are configured for receiving monitor data from a water meter. A data stream is created based upon the monitor data. The data stream is spread with a common pseudo-noise (PN) code that is used by a plurality of nodes in communication with an access point. The spread data stream is transmitted at a first time based on a slot start time and a first randomly selected timing offset. The spread data stream is transmitted while at least a portion of a second spread data stream is transmitted at a second time based on the slot start time and a second randomly selected timing offset. The second spread data stream is spread with the common PN code. | 11-14-2013 |