Portela
Alan Williams Portela, San Antonio, TX US
Patent application number | Description | Published |
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20130271469 | SYSTEMS AND METHODS FOR COLLECTING AND VIEWING PATIENT DATA - Implementations provide methods including actions of processing patient data to generate one or more graphical representations of the patient data, at least one graphical representation of the one or more graphical representations including a waveform, displaying at least one waveform segment of the waveform, and displaying calipers associated with the at least one waveform segment, each caliper being associated with an interval, where displaying the calipers includes, for each caliper: receiving a measurement value of the interval associated with the caliper, determining respective positions of a first handle and a second handle of the caliper based on the measurement, and displaying the first handle and the second handle in the respective positions relative to the at least one waveform segment. | 10-17-2013 |
20130271470 | SYSTEMS AND METHODS FOR DISPLAYING PATIENT DATA - Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for displaying at least one graphical representation as a stacked waveform strip, the stacked waveform strip including: a first strip segment, the first strip segment being associated with a first time period, a second strip segment, the second strip segment being associated with a second time period earlier than the first time period and being displayed beneath the first strip segment, and a third strip segment, the third strip segment being associated with a third time period earlier than the second time period and being displayed beneath the second strip segment. | 10-17-2013 |
20140249854 | SYSTEMS AND METHODS FOR INTEGRATING, UNIFYING AND DISPLAYING PATIENT DATA ACROSS HEALTHCARE CONTINUA - Implementations provide a user of a mobile device access to patient information and patient physiological data. Actions can include receiving a user request, the user request being received in response to user input to the mobile device, determining that the user request is associated with patient data and/or patient information stored in a plurality of data stores associated with a plurality of facility systems, each data store in the plurality of data stores being associated with a respective facility system, transmitting a plurality of requests, each request being directed to a respective facility system, receiving a plurality of responses, each response being responsive to a respective request of the plurality of requests, and transmitting a response to the mobile device, the response being responsive to the user request. | 09-04-2014 |
20150088549 | SYSTEMS AND METHODS FOR INTEGRATING, UNIFYING AND DISPLAYING PATIENT DATA ACROSS HEALTHCARE CONTINUA - Implementations provide a user of a mobile device access to patient information and patient physiological data. Actions can include receiving a user request, the user request being received in response to user input to the mobile device, determining that the user request is associated with patient data and/or patient information stored in a plurality of data stores associated with a plurality of facility systems, each data store in the plurality of data stores being associated with a respective facility system, transmitting a plurality of requests, each request being directed to a respective facility system, receiving a plurality of responses, each response being responsive to a respective request of the plurality of requests, and transmitting a response to the mobile device, the response being responsive to the user request. | 03-26-2015 |
Gianni Masaki Tanaka Portela, Belem BR
Patent application number | Description | Published |
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20160139437 | Nonreciprocal Three-Way Divider Based on a Magneto-Optical Resonator - The present invention is based on a two-dimensional photonic crystal in which defects are inserted in a controlled manner, has the main function of division of the power of an input signal, excited in one of its six waveguides, among other three waveguides (output ones), while keeping isolation of the input port by means of two other waveguides. The operating principle of the device is based on the alignment of a dipole mode excited in the resonant cavity, in such a way that the nodes of this mode are oriented in the direction of two waveguides, so that these waveguides are not excited. Due to this alignment, each of the three output waveguides receive about one third of the power of input signal. The orientation of dipole mode is controlled by the applied DC magnetic field and the physical and geometrical parameters of the resonator. | 05-19-2016 |
Laura Portela, Barbera Del Valles ES
Patent application number | Description | Published |
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20100289846 | SYNCHRONIZED SPEED FOR NOZZLE HEALTH SCANNING - A method for nozzle health scanning including repositioning at least one moving platform at a synchronized speed for a drop detection sensor to scan nozzles in a set of nozzles firing, where the synchronized speed is based on a rate of firing from nozzles in the set of nozzles and a distance between the nozzles in the set of nozzles, and storing the health of the nozzles in a computer readable memory accessible by a machine. | 11-18-2010 |
20110316929 | DEVICE FOR USE WITH A CARRIAGE CARRYING A PRINTHEAD AND A SENSOR - In one embodiment, a device for use with a first carriage carrying a printhead and a sensor includes a track. The track is positioned adjacent to a path, the path being followed by the first carriage. A second carriage is movable along the track and carries a target. The second carriage is movable between a first position, in which the target is away from the sensor, and a second position, in which the target is adjacent to the sensor and a reference included in the target is a known distance away from the sensor. | 12-29-2011 |
Maria Del Pilar Molina Portela, New York, NY US
Patent application number | Description | Published |
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20110030078 | TRYPANOSOME RESISTANT NON-HUMAN TRANSGENIC ANIMAL - The present invention is directed to a Trypanosome-resistant, non-human transgenic animal whose somatic and germ cells comprise a nucleic acid which encodes an apolipoprotein L-I polypeptide (apoL-I). The apoL-I protein has the amino acid sequence selected from the group consisting of SEQ ID NO: 1, SEQ ID NO: 3, SEQ ID NO: 4, and SEQ ID NO: 5. The first nucleic acid transgene is operatively associated with at least one expression regulatory sequence. Methods of producing and raising such transgenic animals as well as transgenic eggs and sperm are also disclosed. | 02-03-2011 |
Mireia Sidera Portela, Oxford, Oxfordshire GB
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20160074852 | CATALYSTS, LIGANDS AND USE THEREOF - According to the present invention, there is provided a catalytic complex comprising a metal, one or more ligands and one or more counterions, wherein said one or more ligands include a non-racemic chiral ligand and wherein said one or more counterions include a triflimide counterion. Also provided are methods of making said catalytic complex and processes for producing chiral compounds which involve the use of said catalytic complex. In addition, the present invention provides compounds of the formula (2) as defined herein. The compounds of formula (2) may be useful as ligands in catalytic complexes. | 03-17-2016 |
Steven Portela, Somerville, MA US
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20110082437 | System and Method For Active Cooling of Stored Blood Products - A portable blood storage device includes an outer housing an inner housing. The outer housing defines the structure of the blood storage device. The inner housing is located within the outer housing and has an interior cavity for storing collected blood and/or blood components. The inner housing has an open top to allow access to the interior cavity. The storage device also has an inlet duct and a return duct located within the interior cavity. The inlet duct is fluidly connectable to a cooling device and brings conditioned air into the storage device when fluidly connected to the cooling device. The return duct is also fluidly connectable to the cooling device and returns exhaust air to the cooling device when fluidly connected. | 04-07-2011 |