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 |
Patent application number | Description | Published |
20100080035 | SRAM BASED ONE-TIME-PROGRAMMABLE MEMORY - Disclosed is a method and device for providing fast-response One-Time-Programmable (OTP) memory based on SRAM memory technology and the inherent breakdown characteristics of a MOS transistor. Each memory cell of an SRAM memory cell circuit is connected to a programming circuit. The programming circuit is comprised of two groups of MOS transistors connected to the storage nodes (SN and SNB, where SNB is the complementary value of SN) of the two cross-coupled inverters of the SRAM memory circuit. A desired data set is loaded into the circuit and then is burned-in by applying and repeatedly cycling a “burn-in” voltage across the source and drain of the MOS transistors of the programming circuit that approaches the ON STATE trigger voltage of the characteristic bipolar junction transistor contained within the MOS transistors. Upon repeated cycling of the source-to-drain voltage, the targeted MOS transistor within the programming circuit breaks down and shorts across the gate, drain, and/or source of the transistor. When the system is returned to normal operation, the programming circuits will be connected to ground, Vdd or Vss and one of the two nodes of the SRAM cell circuit will be shorted through the programming circuit to ground, Vdd or Vss, thus, forcing a retention of the programmed data state. | 04-01-2010 |
20100083193 | DESIGN OPTIMIZATION WITH ADAPTIVE BODY BIASING - A method incorporating adaptive body biasing into an integrated circuit design flow includes the steps of (A) adding adaptive body biasing input/outputs (I/Os) during a bonding layout stage of the integrated circuit design flow, (B) floorplanning the integrated circuit design, (C) generating an adaptive body biasing mesh and (D) generating a layout of the integrated circuit design based upon a plurality of adaptive body biasing corners. | 04-01-2010 |
20110051304 | DEFECTIVITY-IMMUNE TECHNIQUE OF IMPLEMENTING MIM-BASED DECOUPLING CAPACITORS - An integrated circuit power supply decoupling circuit includes a capacitor and a protection circuit. The capacitor has a first terminal and a second terminal. The protection circuit includes a first transistor having a first conduction path, and a second transistor having a second conduction path. One terminal of the first conduction path is connected to the first terminal of the capacitor, and another terminal of the first conduction path is connected to a first power supply rail. One terminal of the second conduction path is connected to the second terminal of the capacitor, and another terminal of the second conduction path is connected to a second power supply rail. | 03-03-2011 |
20120012896 | Integrated Circuit Cell Architecture Configurable for Memory or Logic Elements - An improved integrated circuit cell architecture is provided for configurability between a memory cell or logic elements. The cell architecture is configured on variable layers above a first layer of metal, with the first layer of metal and layers therebelow reserved as fixed layers. By coupling a maximum of two layout cells together, a single-port or dual-port memory cell is realized. Likewise, by interconnecting transistors within a single cell or transistors among two or more cells, a logic device is realized. Within each cell, the bit lines are arranged on a layer separate from the wordlines, and extend orthogonal to each other. | 01-19-2012 |
20120175683 | Basic Cell Architecture For Structured ASICs - A basic cell circuit architecture having plurality of cells with fixed transistors configurable for the formation of logic devices and single and dual port memory devices within a structured ASIC is provided. Different configurations of ensuing integrated circuits are achieved by forming variable interconnect layers above the fixed structures. The circuit architecture can achieve interconnection of transistors within a single cell or across multiple cells. The interconnection can be configured to form basic logic gates as well as more complex digital and analog subsystems. In addition, each cell contains a layout of transistors that can be variably coupled to achieve a memory device, such as a SRAM device. By having the capability of forming a logic circuit element, a memory device, or both, the circuit architecture is both memory-centric and logic-centric, and more fully adaptable to modern-day SoCs. | 07-12-2012 |
20120290994 | TOTAL POWER OPTIMIZATION FOR A LOGIC INTEGRATED CIRCUIT - A method of reducing total power dissipation for logic cells includes selecting a distribution of logic cells corresponding to at least one path, computing a dynamic to static power ratio for each logic cell in the distribution of logic cells and ranking the dynamic to static power ratio for each logic cell into a lower group, a middle group and an upper group of logic cells. Additionally, the method includes swapping the lower group of logic cells and the upper group of logic cells for a reconfigured middle group of logic cells and verifying path timing for the reconfigured middle group of logic cells. Methods of reducing total power dissipation using Boolean equations and for logic cell sets are also provided. | 11-15-2012 |
20130057338 | POWER CONTROLLER FOR SOC POWER GATING APPLICATIONS - A rush-in current controller includes a clock module connected to provide a delayed sleep control signal based on counting a preset number of clock cycles corresponding to an input sleep control signal. Additionally, the rush-in current controller includes a ring oscillator module connected to maintain the delayed sleep control signal based on counting a preset number of ring oscillator cycles corresponding to a virtual power supply line voltage. A method of controlling a rush-in current includes providing a delayed sleep control signal based on counting a preset number of clock cycles corresponding to an input sleep control signal and maintaining the delayed sleep control signal based on counting a preset number of ring oscillator cycles corresponding to a virtual power supply line voltage. | 03-07-2013 |
20130154109 | METHOD OF LOWERING CAPACITANCES OF CONDUCTIVE APERTURES AND AN INTERPOSER CAPABLE OF BEING REVERSE BIASED TO ACHIEVE REDUCED CAPACITANCE - The disclosure provides an interposer with conductive paths, a three-dimensional integrated circuit (3D IC), a method of reducing capacitance associated with conductive paths in an interposer and a method of manufacturing an interposer. In one embodiment the interposer includes: (1) a semiconductor substrate that is doped with a dopant, (2) conductive paths located within said semiconductor substrate and configured to provide electrical routes therethrough and (3) an ohmic contact region located within said semiconductor substrate and configured to receive a back bias voltage. | 06-20-2013 |
20130166930 | REDUCING POWER CONSUMPTION OF MEMORY - Described embodiments provide for a memory system adapted to enable power-gating in one or more memories. Each memory has a corresponding timing characteristic. A monitor in the memory system determines a timing threshold and determines whether the timing characteristic of a memory is at least equal to the timing threshold. If the corresponding timing characteristic is at least equal to the timing threshold, power-gating is applied to the memory. | 06-27-2013 |
20130166931 | REDUCING POWER CONSUMPTION OF MEMORY - Described embodiments provide for a memory system which power-gates a memory operating at a first clock. Control logic in the memory system activates, during a rising edge of a second clock, the memory from a sleep mode. The memory is accessed. After a cycle of the first clock, the control logic asserts a power-gating signal, thereby returning the memory to the sleep mode. The frequency of the second clock is less than a frequency of the first clock. | 06-27-2013 |
20140028364 | CRITICAL PATH MONITOR HARDWARE ARCHITECTURE FOR CLOSED LOOP ADAPTIVE VOLTAGE SCALING AND METHOD OF OPERATION THEREOF - A critical path monitor (CPM), a method of setting supply voltage based on output of a CPM and an integrated circuit (IC) incorporating the CPM. In one embodiment, the CPM includes: (1) an edge detector configured to produce a thermometer output over a plurality of clock cycles and (2) a min_max recorder, coupled to the edge detector and configured to record minimum and maximum values of the thermometer output during a polling interval. | 01-30-2014 |
20140040842 | TOTAL POWER OPTIMIZATION FOR A LOGIC INTEGRATED CIRCUIT - A method of reducing total power dissipation for logic cells using Boolean equations includes selecting a path, identifying at least one group of logic cells for analysis in the path, and deriving Boolean equations for the at least one group of logic cells. Additionally, the method includes listing possible logic cell implementations for each Boolean equation while maintaining original transistor values, verifying path timing for the possible logic cell implementations to provide retained logic cells that achieve a path timing requirement, computing a total power dissipation for the retained logic cells, and choosing a logic cell set from the retained logic cells corresponding to a minimum total power dissipation for the path. A method for reducing total power dissipation for logic cell sets and a processor configured to reduce total power dissipation for groups of logic cells are also provided. | 02-06-2014 |
20150109052 | CLOSED-LOOP ADAPTIVE VOLTAGE SCALING FOR INTEGRATED CIRCUITS - In one embodiment, an integrated circuit (IC) device includes a first logic block having performance characteristics, a first critical path monitor (CPM) configured to monitor the performance characteristics of the first logic block, and a first CPM envelope circuit enveloping the first CPM. The first logic block is configured to operate in at least one of a first functional mode and a first scan mode. The first CPM is adapted to operate in at least one of a second functional mode and a second scan mode. The first and second functional modes use higher clock frequencies, respectively, than the first and second scan modes. The first CPM envelope circuit comprises a clock-gate circuit adapted to allow the IC device to operate in a mixed mode, wherein the first CPM operates in the second functional mode while the first logic block operates in the first scan mode. | 04-23-2015 |
Patent application number | Description | Published |
20120188938 | SYSTEM AND METHOD FOR PROVIDING A LOCATION AWARE WIRELESS NETWORK - This disclosure is directed to devices and methods for providing a location aware wireless network including at least one network node that is configured to calculate a position estimate on the basis of signals received from other network nodes and to transmit location information based on the position estimate to other nodes on the network. Preferably, the network node is configured to autonomously determine a signal-derived position estimate, including those based on location information from other network nodes, signal strength or the timing of signals. Other network nodes can feature GPS receivers, which can optionally be configured to perform signal-derived estimates as well. | 07-26-2012 |
20130257648 | PREDICTION REFRESH METHOD FOR EPHEMERIS EXTENSIONS - Systems, methods and devices for using ephemeris data in GNSS receivers and systems are provided. Receivers using synthetic ephemeris data for longer ephemeris availability under poor reception conditions are updated using a variety of techniques that allow for the transfer of accurate information onto degraded synthetic ephemeris information. | 10-03-2013 |
20130336138 | LOCATION DETECTION WITHIN IDENTIFIABLE PRE-DEFINED GEOGRAPHIC AREAS - Disclosed are systems, apparatus, devices, methods, computer program products, and other implementations, including a method that includes receiving signals at a mobile device from one or more access points, computing one or more positioning quality parameters by analyzing the received signals, and determining based, at least in part, on the computed one or more positioning quality parameters whether the mobile device is inside at least one of one or more areas respectively associated with the one or more access points. | 12-19-2013 |
20140100781 | POSITIONING NETWORK AVAILABILITY AND RELIABILITY BASED ROUTING - A routing system can be configured to determine a route based on availability and reliability of location reference devices to determine a most reliable route between a source and a destination. Visibility information that is indicative of availability of at least a threshold number of location reference devices along the route can be determined. For each of a plurality of routes between the source and the destination, a reliability rating associated with the route can be determined based on the visibility information associated with the route. The reliability rating can be indicative of an ability of the routing system to maintain continuous connectivity to the at least the threshold number of location reference devices along the route. The reliability ratings of the plurality of routes are compared to identify and to present one of the plurality of routes with a highest reliability rating. | 04-10-2014 |
20140107919 | PREDICTIVE SCHEDULING OF NAVIGATION TASKS - Disclosed are systems, apparatus, devices, methods, computer program products, and other implementations, including a method of controlling navigation tasks on a mobile device that includes obtaining data representative of a route of travel for the mobile device, obtaining a list of navigation tasks associated with the route of travel for the mobile device, and performing one or more navigation tasks in accordance with the list of navigation tasks based, at least in part, on proximity of the mobile device to one or more points on the route of travel. Performing the one or more navigation tasks includes one or more of, for example, obtaining satellite positioning assistance data in response to a determination that the mobile device is transitioning from an indoor area to an outdoor area, and/or establishing a communication link with an access point. | 04-17-2014 |
20140179237 | Adaptive Crowdsourcing Using Mobile Device Generated Parameters - Method and apparatus for performing crowdsourcing are disclosed. The method may include monitoring environment of a mobile device, determining a level of crowdsourcing in accordance with one or more mobile device generated parameters corresponding to the environment, and performing crowdsourcing in accordance with the level of crowdsourcing determined. The level of crowdsourcing comprises one or more of quantity of crowdsourcing data to be collected by the mobile device, frequency of crowdsourcing operations to be performed by the mobile device, and type of quantization to be applied to the crowdsourcing data collected. | 06-26-2014 |
20140179340 | PAIRWISE MEASUREMENTS FOR IMPROVED POSITION DETERMINATION - Approaches for enhancing range-based position determination using pairwise error detection and compensation are provided. One method for enhancing a position estimate of a first node may include performing measurements at the first node using a signal received from a second node, and receiving measurements from the second node. The received measurements may be performed at the second node using a signal provided by the first node. The method may further include determining pairwise comparisons of the performed measurements and the received measurements, and compensating the measurements performed at the first node, based on the pairwise comparisons, for estimating the position of the first node. Systems and apparatuses for performing the various position determination methods are further presented. | 06-26-2014 |
20140185520 | PROCESSING DELAY ESTIMATE BASED ON CROWDSOURCING DATA - Techniques are provided for providing a processing delay estimate of an access point, or turnaround calibration function (TCF), associated with round trip time (RTT) measurements. Mobile devices, access points, and/or other systems can utilize these techniques to derive processing delay from the RTT measurements. Crowdsourcing can also be used to help increase the accuracy of the processing delay estimate, which can be propagated to multiple devices. | 07-03-2014 |
20140187257 | INTER-AP DISTANCE ESTIMATION USING CROWD SOURCING - Techniques are provided for utilizing one or more mobile devices to estimate distances between wireless access points (APs). Embodiments can, for example, enable mobile devices, wireless APs, and/or other systems to estimate a distance between two wireless APs using Round-Trip Time (RTT) measurements obtained by one or more mobile devices. The RTT measurements can be utilized based on whether one or more related Received Signal Strength Indication (RSSI) measurements exceed a threshold value. Embodiments can also utilize crowdsourcing to obtain distance estimation data (e.g., distance estimates, RTT and/or RSSI measurements, etc.) from one or more mobile devices and/or propagate a determined distance, based on the distance estimation data, to multiple devices. | 07-03-2014 |
20140192658 | Dynamic selection of positioning system and display map - Systems, apparatus and methods for determining whether to use an indoor map or an outdoor map based on local area network (LAN) signals from access points (APs) are disclosed. If only weak AP signals belonging to a location content identifier (LCI) are received, prior art systems display an indoor map associated with the LCI. An improvement herein further determines a quality of AP signals and/or wide area network (WAN) signals before determining whether to display the indoor map or an outdoor map. | 07-10-2014 |
20140194145 | Method, System and/or Device for Adjusting Expected Received Signal Strength Signature Values - Disclosed are systems, methods and devices for application of determining position information for mobile devices. In specific implementations, measurement of a signal travel time and a signal's strength may be combined to characterize a transmission power of the signal's transmitter. The characterized transmission power may be applied to affect expected signal strength signature values for use of the signal's transmitter may be updated in order to enhance a location based service where location may be effected by accuracy of a transmitter's power. | 07-10-2014 |
20140200037 | REGION DETERMINATION CONTROL - A method, in a mobile device, of controlling region determination by the mobile device, includes: determining a present pressure at the mobile device; determining, based on the present pressure and a reference pressure, that the mobile device moved from a first region to a second region within a structure, the first region and the second region being different regions of the structure and vertically displaced from each other; and performing region determination in response to determining that the mobile device moved from the first region to the second region. | 07-17-2014 |
20140232553 | METHOD AND APPARATUS FOR DETERMINING LOCATION USING A SMART METER AS A LOCATION REFERENCE - Methods, systems, computer-readable media, and apparatuses for using a signal transmitted by a smart meter as a location reference are presented. In one embodiment, a mobile device may receive a first signal transmitted by a smart meter and a second signal transmitted by a wireless access point. The information received may be provided to a server which may use a smart meter location to determine a location of the access point. In further embodiments, multiple measurements as well as distance measurements between a mobile device, the smart meter, and/or the access point may further be used to improve location information for the smart meter and access point. | 08-21-2014 |
20140235264 | MODIFYING NAVIGATION ASSISTANCE PARAMETERS OF A MOBILE-BASED POSITIONING CAPABILITY BASED ON OBSERVATIONS GATHERED BY A NETWORK-BASED POSITIONING CAPABILITY - Various methods, apparatuses and/or articles of manufacture are provided which may be implemented to obtain navigation assistance parameters (NAP) for a mobile device for use by the mobile device in estimating its movement and/or position within a particular environment based, at least in part, on wireless signal(s) acquired by the mobile device as part of a mobile-based positioning (MBP) capability, and modifying the NAP based, at least in part, on observations of movements and/or positions of a plurality of mobile devices within the particular environment gathered by a network-based positioning (NBP) capability. Various methods, apparatuses and/or articles of manufacture are provided which may be implemented to obtain and provide at least a portion of such modified NAP to a positioning capability of the mobile device for use in estimating a position and/or a movement of the mobile device. | 08-21-2014 |
20140253384 | Tiered Positioning Assistance Data for Mobile Devices Within an Indoor Environment - Various methods, apparatuses and/or articles of manufacture are provided which may be implemented in one or more electronic devices supporting mobile device positioning within an indoor environment. Tiered positioning assistance data (tiered-PAD) corresponding to an indoor environment may be generated and/or distributed. Mobile device positioning and/or navigation capabilities may be based, at least in part, on tiered-PAD corresponding to the indoor environment. Tiered-PAD may be provided to a plurality of mobile devices. A given mobile device may, for example, select applicable portion(s) of tiered-PAD to affect one or more positioning functions and/or the like which may be performed, at least in part, by the mobile device. | 09-11-2014 |
20140253386 | DEVICES, METHODS, AND APPARATUSES FOR COMPUTING ROUND-TRIP TIME OF A MESSAGE - Methods, apparatuses, and/or articles of manufacture are disclosed, which may be employed in a mobile device communicating with a transponder via a near field communications channel. In one example, round trip time of a message may be computed to estimate processing latency contributed by processes occurring within the mobile device and/or the transponder. | 09-11-2014 |
20140254575 | METHOD AND APPARATUS FOR PEER-2-PEER WI-FI RANGING USING NEAR FIELD COMMUNICATION - According to some aspects, a method includes communicating a request from a first device to a second device using near field communication (NFC). The request includes a preferred mode of wireless local area network (Wi-Fi) operation and state information of the first device. The method further includes receiving a reply at the first device, sent from the second device, including acceptance of the preferred mode of Wi-Fi operation. The method further includes communicating wireless information to establish the Wi-Fi communication link from the first device to the second device. | 09-11-2014 |
20140256346 | ADAPTIVE ASSISTANCE DATA FOR TIERED SERVICE AND EFFICIENCY IN INDOOR POSITIONING - A method for providing tiered indoor positioning service includes: receiving a request for assistance data from a mobile device; receiving expected quality of service information from the mobile device; generating an adaptive assistance data file comprising heat map data based at least in part on the received expected quality of service information; and transmitting the adaptive assistance data file to the mobile device. | 09-11-2014 |
20140266697 | METHOD AND APPARATUS FOR USE IN IDENTIFYING POTENTIAL ANOMALIES IN ELECTRONIC FILES SUPPORTIVE OF MOBILE DEVICE POSITIONING - Various methods, apparatuses and/or articles of manufacture are provided which may be implemented by one or more electronic devices to identify potential anomalies in one or more electronic files used to support mobile device positioning within a specific environment. Various methods, apparatuses and/or articles of manufacture are also provided which may be implemented by one or more electronic devices to alter one or more electronic files used to support mobile device positioning within a specific environment. | 09-18-2014 |
20140274040 | METHOD AND APPARATUS FOR PERFORMING SCAN OPERATIONS - Various methods, apparatuses and/or articles of manufacture are provided which may be implemented for use by a mobile device to alter a scan operation. Various methods, apparatuses and/or articles of manufacture are provided which may be implemented for use by one or more electronic devices to determine one or more scan factors for use by a mobile device in altering a scan operation. | 09-18-2014 |
20140274108 | Mobile device positioning responsive to externally generated regional candidate position fix mode selection - Various methods, apparatuses and/or articles of manufacture are provided which may be implemented for use by a mobile device to affect at least one positioning function based, at least in part, on a recommended candidate position fix mode received from another electronic device for use in a particular region of an environment. For example, a mobile device may obtain assistance data indicative of a candidate position fix mode for a partial region of an environment navigable by the mobile device, and in response to a determination that the mobile device is estimated to be located within a threshold proximity of the partial region, affect a wireless signal-based positioning function based, at least in part, on the candidate position fix mode. | 09-18-2014 |
20140274109 | POSITIONING PERFORMANCE PREDICTION - A method of predicting positioning performance of a set of N access points in an indoor region includes: obtaining a signal-strength map including signal-strength vectors and corresponding locations in the indoor region, the signal-strength vectors each including N signal-strength indications that each indicate an expected received signal strength from a corresponding one of the set of N access points; and determining a position uncertainty value using the signal-strength map, the position uncertainty value being indicative of a positioning accuracy at a corresponding point of interest in the indoor region. | 09-18-2014 |
20140274119 | METHOD AND APPARATUS FOR INDOOR POSITIONING BASED ON WIRELESS LANDMARKS - Embodiments include using a wireless access point (AP) as a landmark to aid precise wireless indoor positioning of a mobile device. The AP transmits a wireless indoor positioning signal with a predetermined or known frequency and power that is typically only able to be detected and decoded by any of various types of mobile devices that are within a predetermined “close” range of the AP. Based on positioning the mobile device within the predetermined range, the device may calibrate one or more physical sensors of the mobile device for indoor positioning. Such wireless landmarks provide more accurate, efficient, automated and reliable wireless indoor positioning and sensor calibration. | 09-18-2014 |
20140274130 | Server-based mobile device regional candidate position fix mode selection - Various methods, apparatuses and/or articles of manufacture are provided for use by an electronic device to generate a recommended candidate position fix mode to a mobile device for use in a particular region of an environment. Such a candidate position fix mode may, for example, be selected from a plurality of wireless signal-based positioning modes comprising at least: a first wireless signal-based positioning mode based on first wireless signals transmitted by a terrestrial-based transmitting device, a second wireless signal-based positioning mode based on second wireless signals transmitted a satellite-based transmitting device, and a third wireless signal-based positioning mode based on a combination of the first wireless signals and the second wireless signals. In certain example implementations, assistance data indicative of at least the candidate position fix mode may be transmitted to the mobile device. | 09-18-2014 |
20140274161 | METHOD AND APPARATUS FOR GEOTAGGING - Methods and apparatuses for performing geotagging referencing in both indoor and outdoor environments are presented. In some embodiments, a mobile device may record a digital media object comprising at least one digitally recorded event of a surrounding environment of the mobile device. The mobile device may obtain at least one geotagging datum, the at least one geotagging datum comprising at least one timing measurement from at least one reference source. The mobile device may determine a location of the digital media object using the at least one geotagging datum. The mobile device may then label the digital media object with the location of the digital media object. | 09-18-2014 |
20140323160 | UTILIZING A PRESSURE PROFILE TO DETERMINE A LOCATION CONTEXT IDENTIFIER - Example methods, apparatuses, or articles of manufacture are disclosed herein that may be utilized, in whole or in part, to facilitate or support one or more operations or techniques for utilizing a pressure profile to determine a location context identifier (LCI) for use in or with a mobile communication device. | 10-30-2014 |
20140323163 | SYSTEM, METHOD AND/OR DEVICES FOR SELECTING A LOCATION CONTEXT IDENTIFIER FOR POSITIONING A MOBILE DEVICE - Disclosed are systems, methods and devices for providing positioning assistance data to a mobile device based, at least in part, on a location context identifier (LCI). In one particular implementation, a user may select from a one or more of candidate LCIs identified, for example, based on acquiring one or more signals from transmitters in range of the mobile device. | 10-30-2014 |
20140324381 | SYSTEM, METHOD AND/OR DEVICES FOR APPLYING BAROMETRIC PRESSURE MEASUREMENTS AND RADIO FREQUENCY MEASUREMENTS FOR POSITIONING - Disclosed are systems, methods and devices for applying barometric pressure measurements and radio frequency measurements for positioning. In one implementation, barometric measurements may indicate a transition between floors of a building. Accordingly, barometric measurements may be combined with detections of a particular floor based, at least in part, on acquired radio frequency signals. | 10-30-2014 |
20140342662 | Method for Adapting to Venue Positioning Capabilities - Particular embodiments disclosed herein are directed to methods, systems and/or devices for mobile assisted positioning. A mobile station may receive positioning assistance data from a server enabling or supporting one or more positioning operations in a venue. In a particular implementation, the mobile device may alter execution of one or more applications based, at least in part, on an indication of particular positioning services or operations enabled or supported by positioning assistance data available at the server. | 11-20-2014 |
20140364101 | FINE GRAIN POSITION DATA COLLECTION - Method, mobile device, computer program product, and apparatus for performing Fine Grain Position Data Collection are described. In one embodiment, a server can receive position data collected by a mobile device with a first positioning configuration. In one embodiment, the server can determine, from the position data received at the server, a mobile device position and create a second positioning configuration according to at least the mobile device position. In one embodiment, the server can send the second positioning configuration to the mobile device. In one embodiment, a mobile device can collect position data according to a first positioning configuration and send the position data to a server. In one embodiment, the mobile device can receive a second positioning configuration from the server created according to at least the mobile device position. | 12-11-2014 |
20150019121 | INTELLIGENT MAP COMBINATION FOR VENUES ENABLING INDOOR POSITIONING - Methods and devices are described for merging maps. In one potential embodiment a method may comprise receiving an indication of at least one plurality of geographically proximate points, where each of the at least one plurality of geographically proximate points are determined by at least one access point in communication with one or more mobile devices. A first and second map may then be received, where the first map and the second map each cover a first area such that the first area is in both the first map and the second map. The first map and the second map may then be merged by matching a mapping of a first portion of an indication of the at least one plurality of geographically proximate points on the first map and a second portion of an indication of an at least one plurality of geographically proximate points on the second map. | 01-15-2015 |
20150029945 | Communications between a Mobile Device and an Access Point Device - Method, device, and computer program product that may improve communications between a mobile device and an access point device are disclosed. In one embodiment, a method of communicating between a mobile device and an access point device comprises control a plurality of beacons in the access point device, establishing a communication between the access point device with the mobile device using a first beacon in the plurality of beacons, broadcasting availability of the plurality of beacons in the access point device via the first beacon, and establishing the communication with the mobile device using a second beacon in the plurality of beacons. | 01-29-2015 |
20150031307 | METHOD AND APPARATUS FOR USE IN DETECTING CHANGES WITHIN WIRELESS SIGNAL ENVIRONMENT - Various methods, apparatuses and articles of manufacture are provided for use by one or more electronic devices to detect and/or respond to certain changes (anomalies) within a wireless signaling environment. For example, a first electronic device may receive a report of a threshold anomaly detected by a monitoring device deployed at a fixed predetermined position within a coverage area of a network service device, and may initiate an investigation by requesting that a second electronic device attempt to monitor certain transmissions of and/or actively communicate with a network service device. In response to a determination based, at least in part, on the investigation that the threshold anomaly represents a threshold change in status within the wireless signaling environment, the first electronic device may transmit a status report regarding the wireless signaling environment to another electronic device. | 01-29-2015 |
20150045054 | Systems and Methods for Floor Determination of Access Points in Indoor Positioning Systems - Systems and methods are disclosed for determining the floors on which APs are located for WiFi-based indoor positioning systems. A data collection phase is followed by a data analysis phase. During data collection, measurement data to observed APs may be collected from various locations on different floors. The measurements data may include received signal strength indication (RSSI), optional round-trip-time (RTT) data to the APs, and floor information of the measurement locations. Measurement data may also be collected from crowd sourced data without floor information of the measurement locations. In data analysis, the collected measurement data are analyzed using various algorithms to determine if APs belong to the same floor and to assign APs on the same floor to the same cluster. APs on different floors may thus be assigned to different clusters. If the floor information of the measurement locations is known, each cluster may be assigned a floor number. | 02-12-2015 |
20150065150 | METHOD AND APPARATUS FOR ESTIMATING A REGION OF COVERAGE FOR A SPARSE NETWORK ALMANAC - A level 3 (L3) sparse network almanac (SNA) is generated using data from a base station almanac with information for a plurality of base stations. The information for base stations includes cell identifiers that include an L3 region code that is one layer above a cell tower identification level. Cell boundaries are determined from the base station information. The cell boundaries are used to estimate a region of coverage for the L3 SNA, which may be stored in a database. For example, region points may be generated from the cell boundaries, and used to estimate the region of coverage for the L3 SNA. The region of coverage may be determined, e.g., as a minimum enclosing circle or other similar techniques. The larger of an estimated region size parameter, e.g., a radius of a circle, and a default size may be used for the region of coverage. | 03-05-2015 |
20150080013 | Using broadcast position and transmit power from access points to form assistance data - Systems, apparatus and methods for preparing assistance data in a location server from coverage report messages of one or more access points from a plurality of mobile devices are presented. Several mobile devices each collect information from and about one or more access points. This crowd-sourced information is sent from a mobile device to a location server and may include ranging information (such as RSSI or RTT) and/or broadcast information (such as broadcast position and/or transmit power level) and/or computed information (such as path loss). Using this crowd-sourced information, the location server may form assistance data for an assistance data database, which may later be tailored for and send to a specific mobile device. | 03-19-2015 |
20150081239 | METHOD, SYSTEMS AND/OR DEVICE FOR ADJUSTING EXPECTED RECEIVED SIGNAL STRENGTH SIGNATURE VALUES - Disclosed are systems, methods and devices for application of determining position information for mobile devices. In specific implementations, measurement of a signal travel time and a signal's strength may be combined to characterize a transmission power of the signal's transmitter. The characterized transmission power may be applied to affect expected signal strength signature values for use of the signal's transmitter may be updated in order to enhance a location based service where location may be effected by accuracy of a transmitter's power. | 03-19-2015 |
20150103738 | SELECTING AN ACCESS POINT FOR DETERMINING POSITION OF A DEVICE BASED ON TRAFFIC LOAD INFORMATION - Techniques described herein enable a mobile device in selecting an access point (AP) from a plurality of APs for determining the position of the mobile device. In one aspect, the mobile device receives assistance data including traffic load information associated with one or more APs. The mobile device may determine which AP to communicate with based on the traffic load information associated with a plurality of APs. The assistance data including the traffic load information associated with the plurality of APs may be compiled using information from a controller connected to the plurality of APs, crowdsourcing (using information from a plurality of mobile devices over time), or information regarding the traffic conditions received from the plurality of APs. In one implementation, the mobile device may receive the assistance data information including the traffic load information from an assistance data (AD) Server. | 04-16-2015 |
20150105097 | METHOD AND APPARATUS FOR ASYNCHROSOUS POSITIONING OF WIRELESS BASE STATIONS - Various arrangements for determining a location of a base station without timing synchronization are presented. A mobile device may determine that it is moving faster than a threshold velocity. The mobile device may capture a first unsynchronized time of arrival (TOA) measurement and determine an associated first location, wherein the first unsynchronized TOA measurement is based on a first unsynchronized timing measurement of a first received reference signal. The mobile device may capture a second unsynchronized TOA measurement and determine an associated second location, wherein the second unsynchronized TOA measurement is based on a second unsynchronized timing measurement of a second received reference signal. Based on the mobile device moving faster than the threshold velocity, the first location, the second location, the first unsynchronized TOA measurement, and the second unsynchronized TOA measurement may be used for determining the location of the base station. | 04-16-2015 |
20150133154 | METHOD AND APPARATUS FOR DELIVERING ASSISTANCE DATA FROM A SERVER TO A DEVICE IDENTIFYING VIRTUAL ACCESS POINTS - Methods and apparatus for processing positioning assistance data are provided. An exemplary method includes receiving, from a positioning server, virtual access point (VAP) data including a list of unique identifiers, and determining a location of a mobile device by using the VAP. The VAP data indicates that the unique identifiers included on the list identify signals originating from the same physical access point. The unique identifiers can be MAC addresses. In an example, the location determining the can include actively scanning a signal identified by a unique identifier on the list and not actively scanning a different signal identified by a different unique identifier also on the list. Not scanning the other MAC addresses that are on the access point's list and assigned to the mobile device keeps the mobile device from performing duplicative scanning that wastes time, processor cycles, and energy. | 05-14-2015 |
20150146553 | SYSTEM AND METHOD FOR DEPLOYING AN RTT-BASED INDOOR POSITIONING SYSTEM - The present disclosure describes methods, systems, computer-readable media, and apparatuses for evaluating the suitability of AP signaling for RTT-based location calculation. Various evaluation methods are disclosed to enable the signaling to be tested for consistency and reliability. An AP may be analyzed by a mobile device or other communications mechanism to determine whether the AP is suitable for RTT-based location signaling. A mobile device receives multiple signals from an evaluated AP at various locations in the indoor area, and derives RTT data from the signals. The RTT data is analyzed to determine whether RTT data from the AP should be used by mobile devices in the process of calculating their location. | 05-28-2015 |
20150192656 | RECEIVED SIGNAL DIRECTION DETERMINATION IN USING MULTI-ANTENNAS RECEIVERS - Disclosed are systems, apparatus, devices, methods, media, products, and other implementations, including a method that includes determining a phase difference for a wireless signal detected by a first of at least two antennas of a receiver and by a second of the at least two antennas, determining an orientation of the receiver based on information obtained from one or more sensing devices coupled to the receiver, and determining a direction, relative to an external frame of reference, at which the wireless signal arrives at the receiver based on the determined phase difference and the orientation of the receiver determined from the information obtained from the one or more sensing devices coupled to the receiver. | 07-09-2015 |
20150215955 | METHOD AND APPARATUS FOR NETWORK BASED POSITIONING (NBP) - Systems and methods of network based positioning include a server configured to assign priority levels to mobile devices locatable within the network, and allocate network resources for network based positioning of the locatable mobile devices, based on the corresponding priority levels assigned to the mobile devices. The server may further be configured to admit only a selected subset of the locatable mobile devices into the network for purposes of network based positioning and deny admission to the remaining locatable mobile devices, wherein the selected subset can be determined based on an attribute of the mobile device and/or a characteristic of the user of the mobile device. | 07-30-2015 |
20150241213 | MOBILE DEVICE POSITIONING BASED ON INDEPENDENTLY OBTAINED BAROMETRIC PRESSURE MEASUREMENTS - Various techniques are provided which may be implemented as methods, apparatuses and articles of manufacture for use by a mobile device. In certain example implementations, a mobile device may process a barometric pressure measurement indicative of an altitude effect and a weather effect to determine a first parameter corresponding to the altitude effect and a second parameter corresponding to the weather. Such a mobile device may further determine whether it may be transitioning or may have transitioned from an initial level to another level of a multiple level structure based, at least in part, on the first and second parameters. | 08-27-2015 |
Patent application number | Description | Published |
20140275850 | GPS POWER CONSERVATION USING ENVIRONMENTAL DATA - Biometric monitoring devices, including various technologies that may be implemented in such devices, are discussed herein. Additionally, techniques, systems, and apparatuses are discussed herein for providing power-conserving techniques and systems for efficiently utilizing a GPS receiver are described. The positional fix frequency of the GPS receiver may, according to some implementations, be modified or adjusted between various levels according to data from one or more non-GPS sensors. Such non-GPS sensors may include, for example, ambient light intensity or spectrum sensors, accelerometers, gyroscopes, magnetometers, heart rate sensors, galvanic skin response sensors, infrared sensors, etc. | 09-18-2014 |
20140275854 | WEARABLE HEART RATE MONITOR - A biometric monitoring device is used to determine a user's heart rate by using a heartbeat waveform sensor and a motion detecting sensor. In some embodiments, the device collects collecting concurrent output data from the heartbeat waveform sensor and output data from the motion detecting sensor, detects a periodic component of the output data from the motion detecting sensor, and uses the periodic component of the output data from the motion detecting sensor to remove a corresponding periodic component from the output data from the heartbeat waveform sensor. From this result, the device may determine and present the user's heart rate. | 09-18-2014 |
20140276119 | WEARABLE HEART RATE MONITOR - A biometric monitoring device is used to determine a user's heart rate by using a heartbeat waveform sensor and a motion detecting sensor. In some embodiments, the device collects collecting concurrent output data from the heartbeat waveform sensor and output data from the motion detecting sensor, detects a periodic component of the output data from the motion detecting sensor, and uses the periodic component of the output data from the motion detecting sensor to remove a corresponding periodic component from the output data from the heartbeat waveform sensor. From this result, the device may determine and present the user's heart rate. | 09-18-2014 |
20140288436 | WEARABLE HEART RATE MONITOR - A biometric monitoring device is used to determine a user's heart rate by using a heartbeat waveform sensor and a motion detecting sensor. In some embodiments, the device collects collecting concurrent output data from the heartbeat waveform sensor and output data from the motion detecting sensor, detects a periodic component of the output data from the motion detecting sensor, and uses the periodic component of the output data from the motion detecting sensor to remove a corresponding periodic component from the output data from the heartbeat waveform sensor. From this result, the device may determine and present the user's heart rate. | 09-25-2014 |
20140288438 | WEARABLE HEART RATE MONITOR - A biometric monitoring device is used to determine a user's heart rate by using a heartbeat waveform sensor and a motion detecting sensor. In some embodiments, the device collects collecting concurrent output data from the heartbeat waveform sensor and output data from the motion detecting sensor, detects a periodic component of the output data from the motion detecting sensor, and uses the periodic component of the output data from the motion detecting sensor to remove a corresponding periodic component from the output data from the heartbeat waveform sensor. From this result, the device may determine and present the user's heart rate. | 09-25-2014 |
20140316305 | GPS ACCURACY REFINEMENT USING EXTERNAL SENSORS - Biometric monitoring devices, including various technologies that may be implemented in such devices, are discussed herein. Additionally, techniques for enhancing GPS speed and distance measurements based on step counts measured by a biometric monitoring device are provided. Such techniques may, in some implementations, involve blending two independently-measured data streams of raw distance traveled—one based on inter-coordinate GPS coordinate distances and one based on step count and stride length—using a Kalman filter to provide an enhanced-accuracy measurement of distance or speed traveled. In some other or additional implementations, distances or speeds calculated based on inter-coordinate GPS coordinate distances may be smoothed with a smoothing constant that is proportional to the variance in measured step count. | 10-23-2014 |
20150196256 | WEARABLE HEART RATE MONITOR - A biometric monitoring device is used to determine a user's heart rate by using a heartbeat waveform sensor and a motion detecting sensor. In some embodiments, the device collects collecting concurrent output data from the heartbeat waveform sensor and output data from the motion detecting sensor, detects a periodic component of the output data from the motion detecting sensor, and uses the periodic component of the output data from the motion detecting sensor to remove a corresponding periodic component from the output data from the heartbeat waveform sensor. From this result, the device may determine and present the user's heart rate. | 07-16-2015 |
20150230735 | GPS POWER CONSERVATION USING ENVIRONMENTAL DATA - Biometric monitoring devices, including various technologies that may be implemented in such devices, are discussed herein. Additionally, techniques, systems, and apparatuses are discussed herein for providing power-conserving techniques and systems for efficiently utilizing a GPS receiver are described. The positional fix frequency of the GPS receiver may, according to some implementations, be modified or adjusted between various levels according to data from one or more non-GPS sensors. Such non-GPS sensors may include, for example, ambient light intensity or spectrum sensors, accelerometers, gyroscopes, magnetometers, heart rate sensors, galvanic skin response sensors, infrared sensors, etc. | 08-20-2015 |