Patent application number | Description | Published |
20140249790 | METHOD AND SYSTEM FOR DETERMINING TREATMENTS BY MODIFYING PATIENT-SPECIFIC GEOMETRICAL MODELS - Systems and methods are disclosed for evaluating cardiovascular treatment options for a patient. One method includes creating a three-dimensional model representing a portion of the patient's heart based on patient-specific data regarding a geometry of the patient's heart or vasculature; and for a plurality of treatment options for the patient's heart or vasculature, modifying at least one of the three-dimensional model and a reduced order model based on the three-dimensional model. The method also includes determining, for each of the plurality of treatment options, a value of a blood flow characteristic, by solving at least one of the modified three-dimensional model and the modified reduced order model; and identifying one of the plurality of treatment options that solves a function of at least one of: the determined blood flow characteristics of the patient's heart or vasculature, and one or more costs of each of the plurality of treatment options. | 09-04-2014 |
20140372096 | METHOD AND SYSTEM FOR DETERMINING TREATMENTS BY MODIFYING PATIENT-SPECIFIC GEOMETRICAL MODELS - Systems and methods are disclosed for evaluating cardiovascular treatment options for a patient. One method includes creating a three-dimensional model representing a portion of the patient's heart based on patient-specific data regarding a geometry of the patient's heart or vasculature; and for a plurality of treatment options for the patient's heart or vasculature, modifying at least one of the three-dimensional model and a reduced order model based on the three-dimensional model. The method also includes determining, for each of the plurality of treatment options, a value of a blood flow characteristic, by solving at least one of the modified three-dimensional model and the modified reduced order model; and identifying one of the plurality of treatment options that solves a function of at least one of: the determined blood flow characteristics of the patient's heart or vasculature, and one or more costs of each of the plurality of treatment options. | 12-18-2014 |
20140379318 | METHOD AND SYSTEM FOR DETERMINING TREATMENTS BY MODIFYING PATIENT-SPECIFIC GEOMETRICAL MODELS - Systems and methods are disclosed for evaluating cardiovascular treatment options for a patient. One method includes creating a three-dimensional model representing a portion of the patient's heart based on patient-specific data regarding a geometry of the patient's heart or vasculature; and for a plurality of treatment options for the patient's heart or vasculature, modifying at least one of the three-dimensional model and a reduced order model based on the three-dimensional model. The method also includes determining, for each of the plurality of treatment options, a value of a blood flow characteristic, by solving at least one of the modified three-dimensional model and the modified reduced order model; and identifying one of the plurality of treatment options that solves a function of at least one of: the determined blood flow characteristics of the patient's heart or vasculature, and one or more costs of each of the plurality of treatment options. | 12-25-2014 |
Patent application number | Description | Published |
20090022160 | LOW-LATENCY SCHEDULING IN LARGE SWITCHES - Embodiments of a scheduler for a switch, where the switch is configured to couple input ports to output ports are described. During operation, the scheduler may determine a schedule based on a group of requests, associated with multiple data streams, that are received for the output ports of the switch, where the schedule matches input ports to output ports of the switch for a given data cell time. Note that the schedule may be determined using an arbitration technique during a time interval. Moreover, the scheduler may assign an additional request, which was received at a time that precedes a current time by less than the time interval, to a portion of the switch which is available in the schedule, thereby reducing a latency of the scheduler. | 01-22-2009 |
20090322377 | METHOD AND SYSTEM FOR SIZING FLOW CONTROL BUFFERS - A system that includes a first buffer and a second buffer, wherein the first buffer and the second buffer are connected to the same input, wherein a size of the first buffer is defined by a distance of the first buffer from the input and a transfer rate of data, wherein a size of the second buffer is defined by a distance of the second buffer from the input and the transfer rate of data, and wherein the distance between the first buffer and the input is different from the distance between the second buffer and the input. | 12-31-2009 |
20100238949 | FAST AND FAIR ARBITRATION ON A DATA LINK - Embodiments of a circuit, a buffered crosspoint switch that includes the circuit and a computer system that includes the switch are described. In this circuit and switch, deep crosspoint buffers are replaced with smaller distributed buffers. This modification reduces the cost of the switch and improves the scaling properties of the architecture. | 09-23-2010 |
20100246590 | DYNAMIC ASSIGNMENT OF DATA TO SWITCH-INGRESS BUFFERS - Embodiments of a system that includes a switch and a buffer-management technique for storing signals in the system are described. In this system, data cells are dynamically assigned from a host buffer to at least a subset of switch-ingress buffers in the switch based at least in part on the occupancy of the switch-ingress buffers. This buffer-management technique may reduce the number of switch-ingress buffers relative to the number of input and output ports to the switch, which in turn may overcome the limitations posed by the amount of memory available on chips, thereby facilitating large switches. | 09-30-2010 |
20100329250 | SIMPLE FAIRNESS PROTOCOLS FOR DAISY CHAIN INTERCONNECTS - A method for transmitting packets, including forwarding a first set of upstream packets and a first set of local packets by inserting at least one of the first set of local packets between subsets of the first set of upstream packets according to a first insertion rate; calculating a second insertion rate after forwarding a predetermined number of upstream packets generated by a single upstream source, by dividing a cardinality of the first set of upstream packets by a greatest common divisor of the predetermined number and the cardinality of the first set of upstream packets; and forwarding a second set of upstream packets and a second set of local packets from the local switch to the downstream switch by inserting at least one of the second set of local packets between subsets of the second set of upstream packets according to the second insertion rate. | 12-30-2010 |
20110134933 | CLASSES OF SERVICE FOR NETWORK ON CHIPS - A method includes a local switch receiving a first set of upstream packets and a first set of local packets, each assigned a first class of service. The local switch inserts, according to a first insertion rate, a local packet between subsets of the first set of upstream packets to obtain an ordered set of first class packets. The local switch also receives a second set of upstream packets and a second set of local packets, each assigned a second class. The local switch inserts, according to a second insertion rate, a local packet between subsets of the second set of upstream packets to obtain an ordered set of second class packets. The method includes for each timeslot, selecting a class, and forwarding a packet from the selected class of service to a downstream switch. The switches are interconnected in a daisy chain topology on a single chip. | 06-09-2011 |
20110167191 | ARCHITECTURE FOR AN OUTPUT BUFFERED SWITCH WITH INPUT GROUPS - Embodiments of the present invention provide a system that transfers data between the components in the computer system through a switch. In these embodiments, the switch includes multiple switch chips which are coupled together and are configured to collectively function as a switch. During operation, each switch chip, receives cells from the subset of the set of inputs and selectively transfers each of the cells to at least one output of the subset of the set of outputs coupled to the switch chip or of the subset of the set of outputs coupled to the other switch chips. | 07-07-2011 |
20120170459 | SIMPLE LOW-JITTER SCHEDULER - A method for managing packets, including identifying a first packet source having a first weight and second packet source having a second weight, where the first weight exceeds the second weight; assembling a first regular subsequence of packets using a first packet from the second packet source and a first set of packets from the first packet source having a cardinality equal to a first weight ratio; assembling a first augmented subsequence of packets using a second packet from the second packet source and a second set of packets from the first packet source having a cardinality equal to the first weight ratio plus one; and forwarding a first sequence of packets including a first set of regular subsequences, which includes the first regular subsequence, and a first set of augmented subsequences, which includes the first augmented subsequence and has a cardinality based on the first augmented subsequence factor. | 07-05-2012 |
20120170577 | SIMPLE FAIRNESS PROTOCOLS FOR DAISY CHAIN INTERCONNECTS - A method for transmitting packets, including forwarding a first set of upstream packets and a first set of local packets by inserting at least one of the first set of local packets between subsets of the first set of upstream packets according to a first insertion rate; calculating a second insertion rate after forwarding a predetermined number of upstream packets generated by a single upstream source, by dividing a cardinality of the first set of upstream packets by a greatest common divisor of the predetermined number and the cardinality of the first set of upstream packets; and forwarding a second set of upstream packets and a second set of local packets from the local switch to the downstream switch by inserting at least one of the second set of local packets between subsets of the second set of upstream packets according to the second insertion rate. | 07-05-2012 |
20120177036 | SIMPLE FAIRNESS PROTOCOLS FOR DAISY CHAIN INTERCONNECTS - A method for transmitting packets, including forwarding a first set of upstream packets and a first set of local packets by inserting at least one of the first set of local packets between subsets of the first set of upstream packets according to a first insertion rate; calculating a second insertion rate after forwarding a predetermined number of upstream packets generated by a single upstream source, by dividing a cardinality of the first set of upstream packets by a greatest common divisor of the predetermined number and the cardinality of the first set of upstream packets; and forwarding a second set of upstream packets and a second set of local packets from the local switch to the downstream switch by inserting at least one of the second set of local packets between subsets of the second set of upstream packets according to the second insertion rate. | 07-12-2012 |
20130070778 | WEIGHTED DIFFERENTIAL SCHEDULER - A method for managing packets, including: identifying a first plurality of packets from a first packet source having a first weight; identifying a second plurality of packets from a second packet source having a second weight; obtaining a first weight ratio based on the first weight and the second weight; obtaining an error threshold and a first error value corresponding to the second packet source, where the error threshold exceeds the first error value; forwarding a first packet from the first packet source in response to the error threshold exceeding the first error value; incrementing the first error value by the first weight ratio; forwarding a first packet from the second packet source, after incrementing the first error value and in response to the first error value exceeding the error threshold; and decrementing the first error value. | 03-21-2013 |
Patent application number | Description | Published |
20100014810 | OPTICAL IMAGING PROBE CONNECTOR - This document discusses, among other things, a connector for an optical imaging probe that includes one or more optical fibers communicating light along the catheter. The device may use multiple sections for simpler manufacturing and ease of assembly during a medical procedure. Light energy to and from a distal minimally-invasive portion of the probe is coupled by the connector to external diagnostic or analytical instrumentation through an external instrumentation lead. Certain examples provide a self-aligning two-section optical catheter with beveled ends, which is formed by separating an optical cable assembly. Techniques for improving light coupling include using a lens between instrumentation lead and probe portions. Techniques for improving the mechanical alignment of a multi-optical fiber catheter include using a stop or a guide. | 01-21-2010 |
20100087732 | OPTICAL ULTRASOUND RECEIVER - An imaging guidewire can include one or more optical fibers communicating light along the guidewire. At or near its distal end, one or more blazed or other Fiber Bragg Gratings (FBGs) can direct light to a photoacoustic transducer material that provides ultrasonic imaging energy. Returned ultrasound can be sensed by an FBG sensor. A responsive signal can be optically communicated to the proximal end of the guidewire, and processed such as to develop a 2D or 3D image. In an example, the guidewire outer diameter can be small enough such that an intravascular catheter can be passed over the guidewire. To minimize the size of the guidewire, an ultrasound-to-acoustic transducer that is relatively insensitive to the polarization of the optical sensing signal can be used. The ultrasound-to-optical transducer can be manufactured so that it is relatively insensitive to the polarization of the optical sensing signal. | 04-08-2010 |
20100113942 | OPTICAL IMAGING PROBE CONNECTOR - An elongated optical guidewire assembly, such as for optically imaging a patient from within another catheter, can have a lead portion and a probe portion. A connector between the lead and probe portions can include a bore including first and second bore ends. The first bore end can include a substantially circular cross-sectional profile. The second bore end can include a substantially non-circular cross-sectional profile. The bore can be configured to receive the optical guidewire assembly at the first bore end and configured to deform the optical guidewire assembly at the second bore end such that probe and lead ends of the optical guidewire assembly are deformed into a substantially non-circular profile and located between the first and second bore ends. | 05-06-2010 |
20110034809 | High Resolution Intravascular Ultrasound Transducer Assembly Having A Flexible Substrate - An ultrasound transducer assembly of the present invention includes a flexible circuit to which an ultrasound transducer array and integrated circuitry are attached during fabrication of the ultrasound transducer assembly. The flexible circuit comprises a flexible substrate to which the integrated circuitry and transducer elements are attached while the flexible substrate is in a substantially flat shape. The flexible circuit further comprises electrically conductive lines that are deposited upon the flexible substrate. The electrically conductive lines transport electrical signals between the integrated circuitry and the transducer elements. After assembly, the flexible circuit is re-shapable into a final form such as, for example, a substantially cylindrical shape. | 02-10-2011 |
20110123154 | OPTICAL IMAGING PROBE CONNECTOR - This document discusses, among other things, a connector for an optical imaging probe that includes one or more optical fibers communicating light along the catheter. The device may use multiple sections for simpler manufacturing and ease of assembly during a medical procedure. Light energy to and from a distal minimally-invasive portion of the probe is coupled by the connector to external diagnostic or analytical instrumentation through an external instrumentation lead. Certain examples provide a self-aligning two-section optical catheter with beveled ends, which is formed by separating an optical cable assembly. Techniques for improving light coupling include using a lens between instrumentation lead and probe portions. Techniques for improving the mechanical alignment of a multi-optical fiber catheter include using a stop or a guide. | 05-26-2011 |
20130148933 | OPTICAL IMAGING PROBE - This document discusses, among other things, a connector for an optical imaging probe that includes one or more optical fibers communicating light along the catheter. The device may use multiple sections for simpler manufacturing and ease of assembly during a medical procedure. Light energy to and from a distal minimally-invasive portion of the probe is coupled by the connector to external diagnostic or analytical instrumentation through an external instrumentation lead. Certain examples provide a self-aligning two-section optical catheter with beveled ends, which is formed by separating an optical cable assembly. Techniques for improving light coupling include using a lens between instrumentation lead and probe portions. Techniques for improving the mechanical alignment of a multi-optical fiber catheter include using a stop or a guide. | 06-13-2013 |
20130317372 | OPTICAL FIBER PRESSURE SENSOR GUIDEWIRE - In an example, this document discloses an apparatus for insertion into a body lumen, the apparatus comprising an optical fiber pressure sensor. The optical fiber pressure sensor comprises an optical fiber configured to transmit an optical sensing signal, a temperature compensated Fiber Bragg Grating (FBG) interferometer in optical communication with the optical fiber, the FBG interferometer configured to receive a pressure and modulate, in response to the received pressure, the optical sensing signal, and a sensor membrane in physical communication with the FBG interferometer, the membrane configured to transmit the received pressure to the FBG interferometer. | 11-28-2013 |
20140100462 | POLARIZATION SCRAMBLING FOR INTRA-BODY FIBER OPTIC SENSOR - In an example, an optical system can include a polarization scrambler coupleable to a tunable first optical source configured to generate a coherent optical output. The system can include an intra-body optical sensor such as a an intravascularly-deliverable optical fiber transducer, configured to be coupled to the tunable first optical source through the polarization scrambler, the polarization scrambler configured to vary a polarization state of the optical energy provided by the tunable first optical source, the intravascularly-deliverable optical fiber transducer configured to reflect a portion of the optical energy modulated in response to a vibration, pressure, or strain. The system can include a processor circuit configured to obtain information indicative of the optical energy reflected from the intravascularly-deliverable optical fiber transducer, and to process information from the vibration, pressure, or strain modulating the optical energy from the intravascularly-deliverable optical fiber transducer using different polarization states established by the polarization scrambler. | 04-10-2014 |
20140101922 | OPTICAL IMAGING PROBE CONNECTOR - An elongated optical guidewire assembly, such as for optically imaging a patient from within another catheter, can have a lead portion and a probe portion. A connector between the lead and probe portions can include a bore including first and second bore ends. The first bore end can include a substantially circular cross-sectional profile. The second bore end can include a substantially non-circular cross-sectional profile. The bore can be configured to receive the optical guidewire assembly at the first bore end and configured to deform the optical guidewire assembly at the second bore end such that probe and lead ends of the optical guidewire assembly are deformed into a substantially non-circular profile and located between the first and second bore ends. | 04-17-2014 |
20140142414 | OPTICAL ULTRASOUND RECEIVER - An imaging guidewire can include one or more optical fibers communicating light along the guidewire. At or near its distal end, one or more blazed or other Fiber Bragg Gratings (FBGs) can direct light to a photoacoustic transducer material that provides ultrasonic imaging energy. Returned ultrasound can be sensed by an FBG sensor. A responsive signal can be optically communicated to the proximal end of the guidewire, and processed such as to develop a 2D or 3D image. In an example, the guidewire outer diameter can be small enough such that an intravascular catheter can be passed over the guidewire. To minimize the size of the guidewire, an ultrasound-to-acoustic transducer that is relatively insensitive to the polarization of the optical sensing signal can be used. The ultrasound-to-optical transducer can be manufactured so that it is relatively insensitive to the polarization of the optical sensing signal. | 05-22-2014 |
20140316281 | NOISE SUBTRACTION FOR INTRA-BODY FIBER OPTIC SENSOR - An optical source can generally provide optical energy having phase noise. Such phase noise, when demodulated using an intravascularly-deliverable optical fiber transducer, can be indistinguishable from a signal of interest. Apparatus or techniques can include using one or more of a reference optical cavity or a delay line, such as to obtain information indicative of the phase noise of the optical source. Such information can then be reduced or suppressed from other information obtained from the intravascularly-deliverable optical fiber transducer, such as to improve a signal-to-noise (SNR) ratio of a sensing system including the intravascularly-deliverable optical fiber transducer. | 10-23-2014 |
20150045645 | OPTICAL IMAGING PROBE - This document discusses, among other things, a connector for an optical imaging probe that includes one or more optical fibers communicating light along the catheter. The device may use multiple sections for simpler manufacturing and ease of assembly during a medical procedure. Light energy to and from a distal minimally-invasive portion of the probe is coupled by the connector to external diagnostic or analytical instrumentation through an external instrumentation lead. Certain examples provide a self-aligning two-section optical catheter with beveled ends, which is formed by separating an optical cable assembly. Techniques for improving light coupling include using a lens between instrumentation lead and probe portions. Techniques for improving the mechanical alignment of a multi-optical fiber catheter include using a stop or a guide. | 02-12-2015 |