Patent application number | Description | Published |
20110189986 | MESSAGE-BASED EXCHANGE OF ACCESS POINT PILOT SIGNATURE INDICATORS - An access point is identified based on a plurality of pilot signatures. Here, in addition to transmitting a pilot signal that is encoded (e.g., spread/scrambled) using a particular pilot signature, an access point transmits a message that includes at least one indication of at least one other pilot signature. For example, an access point may use one PN offset to generate a pilot signal and transmit a message that identifies at least one other PN offset. An access terminal that receives the pilot signal and the message may then generate a pilot report that identifies all of these pilot signatures. Upon receiving a handover message including this pilot-related information, a target network entity with knowledge of the pilot signatures assigned to that access point may then accurately identify the access point as a target for handover of the access terminal. | 08-04-2011 |
20110189995 | ACCESS POINT IDENTIFICATION BASED ON MULTIPLE PILOT SIGNATURE INDICATORS - An access point is identified based on a plurality of pilot signatures. Here, in addition to transmitting a pilot signal that is encoded (e.g., spread/scrambled) using a particular pilot signature, an access point transmits a message that includes at least one indication of at least one other pilot signature. For example, an access point may use one PN offset to generate a pilot signal and transmit a message that identifies at least one other PN offset. An access terminal that receives the pilot signal and the message may then generate a pilot report that identifies all of these pilot signatures. Upon receiving a handover message including this pilot-related information, a target network entity with knowledge of the pilot signatures assigned to that access point may then accurately identify the access point as a target for handover of the access terminal. | 08-04-2011 |
20110243067 | DELAYED AUTOMATIC REPEAT REQUEST (ARQ) ACKNOWLEDGMENT - Disclosed are examples in which the acknowledgement channel is used for retransmitting a frame received with error. A receiver is configured to transmit an acknowledgment for a frame when the frame is decoded following receipt of the last Pilot Control Group (PCG) of the same frame. The transmitter is configured to receive the acknowledgment of an earlier frame during a subsequent frame, and not to retransmit the earlier frame. The two frames may be adjacent. During connection setup negotiation, the system can determine the values of ack_mask1 defining allowed times for the receiver to acknowledge successful decoding of the subsequent frame, and ack_mask2 defining allowed times for the receiver to acknowledge successful decoding of the earlier frame. The two mask values provide non-overlapping allowed times, so the receiver can acknowledge within the subsequent frame (1) successful decoding of the earlier frame, and (2) successful decoding of the subsequent frame. | 10-06-2011 |
20110286427 | Methods and Apparatus for Calling Party Number Display Solutions for 1xCSFB - Controller and method for Handover (HO) based 1×CSFB communicates Calling Party Number (CPN) to User Equipment (UE) a in a cellular communication system. A first solution provides Interworking Solution (IWS) adding CPN sent to target Base Station Controller (BSC) via Mobile Switching Center (MSC) in Interoperability Specification (IOS) HO messages. A second solution provides that IWS sends CPN with Air Interface HO message and stores the CPN until UE transition to the target Radio Access Network and acquires a traffic channel. A third solution provides that IWS receives CPN from MSC with a paging message and stores the CPN until UE transition to the target Radio Access Network and acquires a traffic channel. A fourth solution provides sending AWI message to the target Radio Access Network from the MSC. A fifth solution provides that IWS sends CPN via Feature Notification Message (FNM) data tunneled to UE before the paging message to let user decide whether to accept a call before leaving 3G/4G cellular communication. | 11-24-2011 |
20120016942 | METHOD AND APPARATUS FOR PROVIDING UNIFORM MACHINE-TO-MACHINE ADDRESSING - An apparatus and method for providing uniform addressing for Machine-to-machine (M2M) services, including receiving by a first machine-to-machine (M2M) module a content from a first machine-to-machine (M2M) device using a first format, wherein the content is addressed for transmission to a second M2M device; converting the received content to a second format for transmission to a second M2M module, wherein the second M2M module is operable to convert the received content back to the first format for transmission to the second M2M device; and transmitting the converted content to the second M2M device through the second M2M module. | 01-19-2012 |
20130107803 | METHODS AND DEVICES FOR FACILITATING ACCESS TERMINAL REGISTRATIONS | 05-02-2013 |
20130109382 | METHODS AND DEVICES FOR FACILITATING ACCESS TERMINAL REGISTRATIONS | 05-02-2013 |
20130176942 | DEVICES AND METHODS FOR FACILITATING OVERHEAD MESSAGE UPDATES IN WIRELESS COMMUNICATIONS SYSTEMS - Access terminals are adapted to facilitate reception of overhead messages. According to one example, an access terminal can determine whether it is at least substantially stationary. The access terminal may receive one or more sequence numbers corresponding to a subsequent overhead message. In response to being at least substantially stationary, the access terminal can ignore the subsequent overhead message when the corresponding sequence numbers are the same as stored sequence numbers corresponding to a previously obtained overhead message, even when the previously obtained overhead message is more than six hundred seconds old. According to another example, a network node may transmit an overhead message including a corresponding sector indicator and sequence numbers. When the sector indicator and the sequence numbers are the same as a previously received and stored sector indicator and sequence numbers, the access terminal can ignore the overhead message. Other aspects, embodiments, and features are also included. | 07-11-2013 |
20130201935 | APPARATUS AND METHOD OF CHANNEL SETUP - Apparatus and methods are described herein for setting up a communication channel. A mobile station may send a message to a base station to setup a traffic channel. In response, the mobile station may receive a single message from the base station including channel assignment parameters and service option configurations. The mobile station may use the information from the single message to establish the traffic channel. Other aspects, embodiments, and features are also claimed and described. | 08-08-2013 |
20130203344 | DEVICES AND METHODS FOR FACILITATING EXTENDED TIME PERIODS FOR MAINTAINING PPP SESSIONS - Access terminals are adapted to facilitate extended time periods for maintaining PPP sessions. According to one example, an access terminal can communicate with a network entity to establish a PPP session maintained by an extended time period. The extended time frame can be different (e.g., greater or less) than a default time period for maintaining the PPP session. For instance, the access terminal may establish a PPP session including a PPP connection. The access terminal may also send a persistence indicator to the network entity to cause setting the extended time period for maintaining the PPP session. The network entity may receive the persistence indicator and accordingly employ a differing time period (e.g., an extended time period) for maintaining the PPP session. Other aspects, embodiments, and features are also included. | 08-08-2013 |
20130203449 | APPARATUS AND METHOD FOR REDUCING PAGING CHANNEL LOAD IN A WIRELESS NETWORK - Apparatus and methods are described herein for monitoring multiple paging channels at a mobile station. A mobile station may monitor a primary paging channel and an optimized secondary paging channel to receive signals from a base station. The mobile station may process overhead data messages received in signals over the primary paging channel. The mobile station may process any mobile-station specific messages received in signals over the optimized secondary paging channel. Other aspects, embodiments, and features are also claimed and described. | 08-08-2013 |
20130250827 | DEVICES AND METHODS FOR MODIFYING PERFORMANCE ATTRIBUTES BASED ON DEVICE CAPABILITIES - Access terminals are adapted to identify one or more capabilities (e.g., characteristics, features). Such an access terminal can send a capability indication message to a network node. The capability indication message is adapted to identify at least one capability associated with the access terminal. The network node can receive the capability indication message and can identify one or more performance attributes associated with each identified capability of the access terminal, which performance attributes can be beneficially altered or optimized in light of the identified capabilities. The network node and the access terminal can then employ one or more adjusted performance attributes associated with each identified capability. Other aspects, embodiments, and features are also included. | 09-26-2013 |
20130250867 | APPARATUS AND METHOD FOR ENABLING AN ENHANCED ACCESS CHANNEL ACCORDING TO CONTROL INFORMATION ON A PAGING CHANNEL - Apparatus and methods are provided for enabling communication on an enhanced access channel (EACH) without necessitating the additional features or channels usually implemented along with this capability. To this end, control information corresponding to the EACH transmission may be provided to an access terminal on a paging channel (PCH). For example, a base station may broadcast a general access parameters message (GAPM) to enable the access terminal to configure EACH transmissions. Further, the PCH may carry acknowledgment messages to inform the access terminal of the status of the EACH transmissions. Other aspects, embodiments, and features are also claimed and described. | 09-26-2013 |
20130252609 | METHODS AND DEVICES FOR FACILITATING ACCESS TERMINAL REGISTRATION WITH A REGISTRATION SERVER - Access terminals are adapted to communicate with registration servers to enable a registration server to perform timer-based registrations on behalf of an access terminal. The access terminal can cease performing such timer-based registrations as long as the registration server performs the registrations, and may power down until event data is available for transmission or reception. When a registration server performs timer-based registrations on behalf of an access terminal, the registration server can periodically communicate with a network entity to conduct the timer-based registrations for the access terminal. The network entity can receive a timer-based registration message from a registrations server for registering an access terminal. In response to such a message, the network entity can register the access terminal. Sensors and controllers may be used with some embodiments to collect and analyze data and for potentially taking action. Other aspects, embodiments, and features are also claimed and described. | 09-26-2013 |
20130268820 | METHOD AND APPARATUS FOR SELECTIVE ACKNOWLEDGEMENT OF PACKETS FROM AN ACCESS PROBE - Aspects of the present disclosure are directed to apparatuses and methods capable of selective acknowledgement of packets from an access probe. In one aspect, an apparatus includes: a transceiver configured to receive a set of frames associated with an access probe message from a wireless node, wherein the access probe message includes a plurality of frames, and the set of frames comprises a subset of the plurality of frames; and a processing system configured to generate a selective acknowledgement message based on a determination of whether each frame in the set of frames is received correctly. The acknowledgement includes an indication of receipt for at least one frame in the set of frames. Other aspects, embodiments, and features are also claimed and described. | 10-10-2013 |
20130301437 | APPARATUS AND METHOD FOR CONTROLLING AN ACCESS PROBE TRANSMIT POWER ACCORDING TO A REVERSE LINK UNDERLOAD CONDITION - Apparatus and methods are disclosed for adapting the power of an access probe transmission, in accordance with a reverse link underload indicator provided by the base station. In one example, the base station can transmit a one-bit reverse link underload indicator as an information element broadcasted within a general page message (GPM). Here, the reverse link underload indicator can indicate whether a measured rise-over-thermal (RoT) at the base station is less than a given threshold. The access terminal may accordingly reduce the initial transmit power of an access probe transmission in the case of a reverse link underload condition, as this condition would indicate that the base station could accommodate reduced power access probe transmissions without substantially decreasing the probability of a quick detection of the access attempt. Other aspects, embodiments, and features are also claimed and described. | 11-14-2013 |
20140351186 | SPIKE TIME WINDOWING FOR IMPLEMENTING SPIKE-TIMING DEPENDENT PLASTICITY (STDP) - Methods and apparatus are provided for implementing spike-timing dependent plasticity (STDP) using windowing of spikes. One example method for operating an artificial nervous system generally includes recording spike times for a first artificial neuron, recording spike times for a second artificial neuron coupled to the first artificial neuron via a synapse, processing spikes for the second artificial neuron according to a window based at least in part on the spike times for the first artificial neuron, and updating a parameter (e.g., a weight or a delay) of the synapse based on the processing. | 11-27-2014 |
20150017991 | ACCESS POINT IDENTIFICATION BASED ON MULTIPLE PILOT SIGNATURE INDICATORS - An access point is identified based on a plurality of pilot signatures. Here, in addition to transmitting a pilot signal that is encoded (e.g., spread/scrambled) using a particular pilot signature, an access point transmits a message that includes at least one indication of at least one other pilot signature. For example, an access point may use one PN offset to generate a pilot signal and transmit a message that identifies at least one other PN offset. An access terminal that receives the pilot signal and the message may then generate a pilot report that identifies all of these pilot signatures. Upon receiving a handover message including this pilot-related information, a target network entity with knowledge of the pilot signatures assigned to that access point may then accurately identify the access point as a target for handover of the access terminal. | 01-15-2015 |
20150045037 | MESSAGE-BASED EXCHANGE OF ACCESS POINT PILOT SIGNATURE INDICATORS - An access point is identified based on a plurality of pilot signatures. Here, in addition to transmitting a pilot signal that is encoded (e.g., spread/scrambled) using a particular pilot signature, an access point transmits a message that includes at least one indication of at least one other pilot signature. For example, an access point may use one PN offset to generate a pilot signal and transmit a message that identifies at least one other PN offset. An access terminal that receives the pilot signal and the message may then generate a pilot report that identifies all of these pilot signatures. Upon receiving a handover message including this pilot-related information, a target network entity with knowledge of the pilot signatures assigned to that access point may then accurately identify the access point as a target for handover of the access terminal. | 02-12-2015 |
20150105073 | METHODS AND DEVICES FOR FACILITATING ACCESS TERMINAL REGISTRATION WITH A REGISTRATION SERVER - Access terminals are adapted to communicate with registration servers to enable a registration server to perform timer-based registrations on behalf of an access terminal. The access terminal can cease performing such timer-based registrations as long as the registration server performs the registrations, and may power down until event data is available for transmission or reception. When a registration server performs timer-based registrations on behalf of an access terminal, the registration server can periodically communicate with a network entity to conduct the timer-based registrations for the access terminal. The network entity can receive a timer-based registration message from a registrations server for registering an access terminal. In response to such a message, the network entity can register the access terminal. Sensors and controllers may be used with some embodiments to collect and analyze data and for potentially taking action. Other aspects, embodiments, and features are also claimed and described. | 04-16-2015 |
20150120626 | METHODS AND APPARATUS FOR TAGGING CLASSES USING SUPERVISED LEARNING - Certain aspects of the present disclosure provide methods and apparatus for creating tags (static or dynamic) for input/output classes of a neural network model using supervised learning. The method includes augmenting a neural network model with a plurality of neurons and training the augmented network using spike timing dependent plasticity (STDP) to determine one or more tags. | 04-30-2015 |
20150278683 | PLASTIC SYNAPSE MANAGEMENT - A method for managing synapse plasticity in a neural network includes converting a first set of synapses from a plastic synapse type to a fixed synapse type. The method may also include converting a second set of synapses from the fixed synapse type to the plastic synapse type. | 10-01-2015 |
20150278684 | TIME SYNCHRONIZATION OF SPIKING NEURON MODELS ON MULTIPLE NODES - Certain aspects of the present disclosure support techniques for time synchronization of spiking neuron models that utilize multiple nodes. According to certain aspects, a neural model (e.g., of an artificial nervous system) may be implemented using a plurality of processing nodes, each processing node implementing a neuron model and communicating via the exchange of spike packets carrying information regarding spike information for artificial neurons. A mechanism may be provided for maintaining relative spike-timing between the processing nodes. In some cases, a mechanism may also be provided to alleviate deadlock conditions between the multiple nodes. | 10-01-2015 |
Patent application number | Description | Published |
20090011616 | Widely deployable charging system for vehicles - A mechanical, electrical and telecommunication system to electrically connect a vehicle to an electricity source to transfer energy to the vehicle is presented. In one rendition the system has a stationary portion on the road or infrastructure side, and a moving member on the vehicle. The system is designed to tolerate misalignments of a parked vehicle with respect to the parking stall. The infrastructure or road side component of the system being mechanically static is designed rugged and therefore is widely deployable. The system along with moving member is fail-safe and poses no threat to humans, the vehicle being charged or the vehicles sharing the road. An important component of the system is a pair of rigid, insulating strips with a series of conductors on each of them, placed at approximately right angles to each other. One of the strips is mounted on the infrastructure or road side and the other on the vehicle. The two strips cover the lateral and longitudinal misalignment of the parked vehicle. As long as the two strips have an overlap, the connection can be made by the conductors in the overlap region. The system is designed to operate only in the active presence and active desire of a vehicle to connect to the infrastructure or road side stationary part. | 01-08-2009 |
20120227519 | Actuating Mechanism for Electric Vehicle Charging System - The general field of invention is electrical connectors and their actuating mechanism. This invention teaches a novel mechanism for mating two parts of a register-free electrical connector. Although this invention can benefit many connector designs and applications, it is particularly beneficial when applied to hands free connectors for charging electric vehicles—also known in the industry as the Electric Vehicle Charge Couplers. The mechanism taught in this patent provides ability to bring two objects such as two sides of a connector together with following benefits: ability to stop the motion after reaching the target location, slide the two objects with respect to each other after mating, maintain a steady contact force, align the two sides of the contactor with respect to each other. | 09-13-2012 |
20130065452 | Contactors for Electric Vehicle Charging System - The general field of invention is electrical connectors and their conductor geometry. This patent teaches how to make the register-free charge couplers to have self-cleaning ability as well as tolerating operation under dirty environments such as underbelly of cars, while still delivering the requirements imposed by the register-free functionality. Although this invention can benefit many connector designs and applications, it is particularly beneficial when applied to hands free connectors for charging electric vehicles—also known in the industry as the Electric Vehicle Charge Couplers. The specific geometry taught in the patent satisfies the requirements of register-free connectors such as not to be able to short circuit supply conductors, provide at least one drain side conductor for every supply side conductor, permit easy sliding between supply and drain side conductors and provide at least one drain side contact with its centerline to overlap each supply side contact. Additional treads on the contacts provide self-cleaning ability without disturbing the register-free functionality by providing a path for loose dirt and oxides to escape, while the ridges between the grooves break the dirt into small pieces. The groove pitch is adjusted in relation to the sliding distance between the contacts such that every broken down piece of the dirt finds an escape path. | 03-14-2013 |
20130253741 | Widely deployable charging system for vehicles. - A mechanical, electrical and telecommunication system to electrically connect a vehicle to an electricity source to transfer energy to the vehicle is presented. The system is designed to tolerate misalignments of a parked vehicle with respect to the parking stall. An important component of the system is a pair of rigid, insulating strips with a series of conductors on each of them, placed at approximately right angles to each other. One of the strips is mounted on the infrastructure or road side and the other on the vehicle. The two strips cover the lateral and longitudinal misalignment of the parked vehicle. As long as the two strips have a cross point; the connection can be made by the conductors in the overlap region. The system is designed to operate only in the active presence and active desire of a vehicle to connect to the infrastructure or road side stationary part. | 09-26-2013 |
20140239890 | Hands free conductive charging system for Electric Vehicles - The general field of this invention is electrical connectors and their actuating mechanism. More specifically, this invention teaches a novel connector and its actuating mechanism for establishing an electrical connection between two arbitrarily oriented objects such as an arbitrarily parked EV and infrastructure. In most of the prior art, a conductive connection requires precise and guided alignment of mating conductors. The prior art achieves this either by a sensor guided search or mechanical guides to being the two objects into desired alignment. In order to tolerate a wider misalignment between the two objects, the guides have to have a large footprint. In contrast, this invention breaks down the process of aligning the two halves of connector into a series of simple motions—when carried out in a particular order, would deliver the necessary alignment of the two sides of a connector. The series of motions also ensure sliding of conductive elements against each other under force to mimic a pin and socket contact, thus establishing a high quality conductive connection between the two misaligned objects. | 08-28-2014 |
Patent application number | Description | Published |
20090057897 | High strength solder joint formation method for wafer level packages and flip applications - A Micro SMDxt package is provided that configured for mounting to a circuit board. The SMDxt package includes a silicon-based IC having an array of contact pads on one side of thereof, and a die electrically attached to the silicon-based IC. A plurality of solder balls is included, each of which has a polymeric core surrounded by a metallic shell that in turn is surrounded by a layer of solder material. Further, each solder ball is positioned in contact with a corresponding contact pad of the package. An intertwined intermetallic fusion layer is formed through the fusion between material components of the contact pads and the solder material, via heat treatment. The intermetallic fusion extends between and from an outer surface of the metallic shell of each solder to an outer surface of a corresponding contact pad to form a high strength intermetallic solder joint therebetween. | 03-05-2009 |
20100258710 | OPTICAL SENSORS THAT REDUCE SPECTRAL REFLECTIONS - An optical sensor device, according to an embodiment of the present invention, includes a light source and a light detector. The light source includes one or more light emitting elements, and the light detector includes one or more light detecting elements. A first opaque light barrier portion, between the light source and the light detector, is configured to block light from being transmitted directly from the light source to the light detector. A second opaque light barrier portion, extending from the first opaque light barrier portion in a direction towards the light source, is configured to reduce an amount of specular reflections that would occur if a light transmissive cover plate were placed over the optical sensor device. A third opaque light barrier portion, extending from the first light barrier portion in a direction towards to the light detector, is configured to reduce an amount of specular reflections that would be detected by the light detector, if a light transmissive cover plate were placed over the optical sensor device. | 10-14-2010 |
20100258712 | OPTICAL SENSORS THAT REDUCE SPECTRAL REFLECTIONS - An optical sensor device comprises a light source, a light detector, and an opaque light barrier including a first portion to block light from being transmitted directly from the source to the detector. A second portion of the light barrier extends from the first portion in a direction towards the light source, such that a portion of the second portion covers at least a portion of light emitting element(s) of the source, to reduce an amount of specular reflections, if a light transmissive cover plate were placed over the sensor. Additionally, a third portion of the barrier can extend from the first portion, in a direction towards to the detector, such that a portion of the third portion covers at least a portion of light detecting element(s) of the detector, to reduce an amount of specular reflections that would be detected by the detecting element(s) of the detector, if a light transmissive cover plate were placed over the sensor. Additionally, an off-centered lens can cover a portion of the light source. | 10-14-2010 |
20100259766 | OPTICAL SENSORS AND METHODS FOR PROVIDING OPTICAL SENSORS - Provided herein are optical sensor devices, methods for making the same, and systems including the same. An optical sensor device, according to an embodiment, includes a light detector die and a light source die attached to the same or different die attachment substrates so that there is a space between the light source die and the light detector die. A light transmissive material covers the light detector die, the light source die and at least a portion of the space between the light detector die and the light source die. A groove is formed (e.g., saw, blade or laser cut, or cast) in the light transmissive material between the light detector die and the light source die, and an opaque material is put within the groove to provide a light barrier between the light detector die and the light source die. | 10-14-2010 |