Patent application number | Description | Published |
20150116075 | SYSTEMS AND METHODS TO AUTOMATICALLY DETECT A DOOR STATE - A door lock/unlock system for a building automatically controls locking and unlocking of a door. A door lock controller interfaces with an electronic door lock and receives messages including door lock commands from a local receiver. In turn, the local receiver interfaces with a hub device through a mesh network. The hub applies a rule set to make lock operation decisions, and sends messages comprising commands to operate the door lock through the mesh network to the local receiver. The local receiver decodes the messages and passes the commands to the door lock controller to automatically control the electronic door lock. A door state device checks the state of the door. When the checking mechanism indicates that the message was not received or the lock operation failed, the system alerts the user to take appropriate lock action. | 04-30-2015 |
20150116080 | SYSTEMS AND METHODS TO CONTROL A DOOR KEYPAD - A door lock controller receives sensor data from a sensor, such as a motion sensor or an RF envelope sensor, and determines whether to permit operation of a keypad associated with the door lock based at least in part on the sensor data. The door lock controller further sends messages including key pad data to a local receiver, receives messages containing door lock commands from the local receiver, and controls a state of the door lock based at least in part on the door lock commands. | 04-30-2015 |
20150116082 | SYSTEMS AND METHODS TO CONTROL LOCKING AND UNLOCKING OF DOORS USING POWERLINE AND RADIO FREQUENCY COMMUNICATIONS - An electronic door lock system automatically controls locking and unlocking of a door. A door lock controller interfaces with an electronic door lock, sends messages including door lock data to a local receiver, and receives messages including door lock commands from the local receiver. In turn, the local receiver interfaces with a hub device through a mesh network. The hub receives the door lock data, applies a rule set to make lock operation decisions, and sends messages, which may comprise commands to operate the door lock, through the mesh network to the local receiver. The local receiver decodes the messages and passes the commands to the door lock controller to automatically control the electronic door lock. | 04-30-2015 |
20150116097 | METHODS AND SYSTEMS FOR POWERLINE AND RADIO FREQUENCY COMMUNICATIONS - Disconnected from the powerline, a battery-powered receiver is configured to conserve power. The receiver communicates information between a local controller and a communication network that uses the powerline and a radio frequency (RF) band to propagate messages. An antenna wirelessly detects the presence of the powerline carrier signal that radiates into free space, which indicates a first message encoded onto the powerline. A computer processor wakes up from an inactive state based on the presence of the carrier signal and receives a second message via a second RF signal having a different frequency than the powerline carrier signal, and determines whether the device address in the second message is the assigned address of the receiver. If the message is not addressed to the receiver, the receiver returns to an inactive state. | 04-30-2015 |
20150160626 | SYSTEMS AND METHODS TO AUTOMATICALLY ADJUST WINDOW COVERINGS - An electronic window covering control system automatically controls the position and orientation of a window covering. A window covering controller interfaces with a light intensity sensor, a temperature sensor, and an electronic window covering configured to raise and lower the covering and tilt the slats. The window covering controller sends sensor data to a local receiver and receives window covering commands from the local receiver. The local receiver interfaces with a hub device through a mesh network and sends the sensor data to the hub. The hub applies a rule set to make operation decisions based on sensor data and user preferences, and sends messages comprising commands to operate the window covering through the mesh network to the local receiver. The local receiver decodes the messages and passes the window covering commands to the window covering controller to automatically control the electronic window covering. | 06-11-2015 |
20150161884 | SYSTEMS AND METHODS TO CONTROL WINDOW COVERINGS USING POWERLINE AND RADIO FREQUENCY COMMUNICATIONS - An electronic window covering control system automatically controls raising, lowering, and rotating a window covering of a window. A window covering controller interfaces with an electronic window covering, sends messages including sensor data to a local receiver, and receives messages including window covering commands from the local receiver. In turn, the local receiver interfaces with a hub device through a mesh network. The hub receives the sensor data, applies a rule set to make window covering operation decisions, and sends messages, which may comprise commands to operate the window covering, through the mesh network to the local receiver. The local receiver decodes the messages and passes the window covering commands to the window covering controller to automatically control the electronic window covering. | 06-11-2015 |
Patent application number | Description | Published |
20110183402 | Methods of synthesizing heteromultimeric polypeptides in yeast using a haploid mating strategy - Methods are provided for the synthesis and secretion of recombinant proteins preferably large mammalian proteins or hetero-multimeric proteins at high levels and for prolonged time in polyploid, preferably diploid yeast. These methods use various mating competent yeast, including | 07-28-2011 |
20120301922 | NOVEL P. PASTORIS PASTORIS PROMOTERS, AND THE USE THEREOF TO DIRECT EXPRESSION OF PROTEINS IN YEAST, PREFERABLY USING A HAPLOID MATING STRATEGY - Novel promoters which are derived from | 11-29-2012 |
20130029880 | METHODS OF SYNTHESIZING HETEROMULTIMERIC POLYPEPTIDES IN YEAST USING A HAPLOID MATING STRATEGY - Methods are provided for the synthesis and secretion of recombinant hetero-multimeric proteins in mating competent yeast. A first expression vector is transformed into a first haploid cell; and a second expression vector is transformed into a second haploid cell. The transformed haploid cells, each individually synthesizing a non-identical polypeptide, are identified and then genetically crossed or fused. The resulting diploid strains are utilized to produce and secrete fully assembled and biologically functional hetero-multimeric protein. | 01-31-2013 |
20140206039 | METHODS OF SYNTHESIZING HETEROMULTIMERIC POLYPEPTIDES IN YEAST USING A HAPLOID MATING STRATEGY - Methods are provided for the synthesis and secretion of recombinant hetero-multimeric proteins in mating competent yeast. A first expression vector is transformed into a first haploid cell; and a second expression vector is transformed into a second haploid cell. The transformed haploid cells, each individually synthesizing a non-identical polypeptide, are identified and then genetically crossed or fused. The resulting diploid strains are utilized to produce and secrete fully assembled and biologically functional hetero-multimeric protein. | 07-24-2014 |
20140377802 | Novel P. Pastoris Pastoris Promoters, and the Use Thereof to Direct Expression of Proteins in Yeast, Preferably Using a Haploid Mating Strategy - Novel promoters which are derived from | 12-25-2014 |
20160024511 | YEAST PROMOTERS FOR PROTEIN EXPRESSION - Isolated nucleic acids, expression methods, host cells, expression vectors, and DNA constructs for producing proteins, and proteins produced using the expression methods are disclosed. More specifically, nucleic acids isolated from | 01-28-2016 |
20160068849 | METHODS OF SYNTHESIZING HETEROMULTIMERIC POLYPEPTIDES IN YEAST USING A HAPLOID MATING STRATEGY - Methods are provided for the synthesis and secretion of recombinant hetero-multimeric proteins in mating competent yeast. A first expression vector is transformed into a first haploid cell; and a second expression vector is transformed into a second haploid cell. The transformed haploid cells, each individually synthesizing a non-identical polypeptide, are identified and then genetically crossed or fused. The resulting diploid strains are utilized to produce and secrete fully assembled and biologically functional hetero-multimeric protein. | 03-10-2016 |
20160097053 | YEAST PROMOTERS FROM PICHIA PASTORIS - In accordance with the invention, isolated nucleic acids, expression methods, host cells, expression vectors, and DNA constructs for producing proteins, and proteins produced using the expression methods are described. More particularly, nucleic acids isolated from | 04-07-2016 |