Patent application number | Description | Published |
20110246502 | CREATING AND PROPAGATING ANNOTATED INFORMATION - Content may be collected, annotated, and propagated in a unified process. In one example, a mobile device such as a smart phone is used to collect information. The information may be text, video, audio, etc. The information may be sent to a reaction service, which may return an annotation of the information. The annotation may be attached to the information to create an annotated document. The annotated document may be communicated to other users. Additionally, the annotated document may be stored in a way that associated the annotated document with the user who created or captured the information. The ability to capture information, obtain annotations to the information, and propagate the annotated information may facilitate the creation of social media, such as social network postings or online photo albums. | 10-06-2011 |
20110295878 | ASSISTED CONTENT AUTHORING - An authoring system on a mobile device (or other type of device) may help a user to author a message based on context available on the device. Context data comes to exist on the device in some manner. For example, the context may contain the results of a search that a user has performed on the device. A message may be proposed based on the search query and/or the result—e.g., if a user searches for “Edinburgh,” the authoring system may propose the message “Username likes Edinburgh” or “Username is learning about Edinburgh.” The authoring system may allow the user to change the message and/or to add additional content and/or links to the message. The user may then to send the message over some channel such as e-mail, a social network, a microblogging site, etc. | 12-01-2011 |
20110320560 | CONTENT AUTHORING AND PROPAGATION AT VARIOUS FIDELITIES - Content may be authored on a device using various types of information, and may be propagated at various different fidelities. In one example, a user enters or captures information on a mobile device, such as a smart phone. The entered and/or captured information may be sent to a remote service, which provides information based on the entered and/or captured data. An application on the device then allows the user of the device to author rich content based on the entered and/or captured data, and based on the information returned from the service. The application may allow the user to include text, photos, video, audio, links, or any other type of content. The entire content object that the user creates may be stored in a structured form, and may be propagated at various different fidelities (e.g., text only, etc.) in order to accommodate the limitations of the propagation channel. | 12-29-2011 |
20120084247 | AFFECTING USER EXPERIENCE BASED ON ASSESSED STATE - State information about user may be used to affect the way in which an application or service behaves with respect to that user. In one example, inferences about the user are drawn based on user-specific and/or non-user-specific information. Examples of user-specific information may include the user's location, searches the user has performed, purchases the user has made, etc. Non-user-specific information may include bus schedules, movie schedules, maps, etc. Inferences about the user's state may be drawn from this information. Types of state information include flags (relatively transient state information), patterns (recurring state information), and badges (relatively durable state information). State information may be made transparent to the user, and the user may be given a chance to affirm or reject state information that has been inferred about that user. | 04-05-2012 |
20120096373 | USE OF LOW-POWER DISPLAY ON DEVICE - A device may have a plurality of displays, such as a high-power display and a low-power display. The low-power display may be used to display various types of information. Some examples of information that may be displayed on the low-power display include personal customizations of the device (e.g., skins, tattoos, text or graphics, etc.), a battery meter, a signal strength meter, the date and time, or any other type of information. In one example, the device has a separate processor that drives the low-power display, so that the low-power display can be used while the device is in sleep mode or off. In another example, an application that runs on the device's regular processor uses the high- and low-power displays cooperatively to display output from an application. The low-power display can be wrapped around the edges and/or corners of the device, to make effective use of the device's surface area. | 04-19-2012 |
20120155778 | Spatial Image Index and Associated Updating Functionality - An image matching system is described for finding reference images which match a query image. The image matching system performs this operation in expeditious fashion by restricting the matching to a bounding region; the bounding region, in turn, may be associated with a location at which the query image may have been captured. In addition, the image matching system provides various mechanisms that expedite adding new reference images to an image index, to thereby provide a re-enforced learning mechanism of the image matching system. | 06-21-2012 |
20130151513 | PERSISTENT CONTEXTUAL SEARCHES - A badge may be assigned to a person, where the badge represents a characteristic or recurrent behavior of the person. A query may be associated with a badge, and the query may be continually used in a search request in combination with the person's context, thereby allowing the person to be continually provided with fresh results that may be relevant to the person's durable characteristics and current context. In one example, the person carries a handheld device, and the results are presented to the user on the user's desktop or lock screen. The act of providing the results may be triggered in various ways, such as movement of the person who carries the device, or the availability of sufficiently high-quality results. | 06-13-2013 |
Patent application number | Description | Published |
20100071396 | COOLING MEMBER - A cooling member for a variable speed drive is disclosed. The cooling member includes including at least two channels, each channel including at least one inlet and at least one outlet, a first passageway configured to provide fluid to the at least two channels through the at least one inlet of each channel, a second passageway configured to receive fluid from the at least one outlet of each channel the at least two channels, and a connector to connect the cooling member to a second cooling member. | 03-25-2010 |
20100083692 | VARIABLE SPEED DRIVE FOR PERMANENT MAGNET MOTOR - A drive system for a compressor of a chiller system includes a variable speed drive. The variable speed drive is arranged to receive an input AC power at a fixed AC input voltage and fixed input frequency and provide an output AC power at a variable voltage and variable frequency. The variable speed drive includes a converter connected to an AC power source providing the input AC voltage. The converter is arranged to convert the input AC voltage to a DC voltage. A DC link is connected to the converter. The DC link is arranged to filter and store the DC voltage from the converter. A first inverter and a second inverter are each connected to the DC link. A motor includes stator windings connected between the first inverter and the second inverter to power the motor by the output AC power from the first inverter and the second inverter. The motor is connectable to a compressor of the chiller system to power the compressor. The motor may be a permanent magnet synchronous motor. | 04-08-2010 |
20100083693 | VARIABLE SPEED DRIVE WITH PULSE-WIDTH MODULATED SPEED CONTROL - A drive system for a compressor of a chiller system includes a variable speed drive. The variable speed drive receives an input AC power at a fixed input AC voltage and a fixed input frequency, and provides an output AC power at a variable voltage and variable frequency. The variable speed drive includes a converter connected to an AC power source. The converter is arranged to convert the input AC voltage to a DC voltage. A DC link is connected to the converter and configured to filter and store the DC voltage from the converter. An inverter is connected to the DC link. A motor is connectable to the compressor for powering the compressor. A controller is arranged to control switching in the converter and the inverter. The controller is arranged to apply randomized pulse width modulation to vary the switching frequency of transistors in the converter and the inverter at each switching cycle. The motor may be a permanent magnet synchronous motor. | 04-08-2010 |
20100084935 | PERMANENT MAGNET SYNCHRONOUS MOTOR AND DRIVE SYSTEM - A hybrid motor for powering a compressor of a chiller system includes a first rotor portion and a first stator portion configured as a permanent magnet motor and a second rotor portion and a second stator portion configured as a reluctance motor. The second rotor portion includes a reluctance-type rotor, and the second stator portion includes electromagnetic windings capable of inducing a rotary magnetic field. The first rotor portion and the second rotor portion are attached to a common drive shaft. The reluctance motor is arranged to generate start-up torque and initiate rotation of the drive shaft until the drive shaft achieves a predetermined rotational speed. The permanent magnet motor is arranged to power the drive shaft between the predetermined rotational speed and a maximum rotational speed. | 04-08-2010 |
20100085000 | VARIABLE SPEED DRIVE FOR PERMANENT MAGNET MOTOR - A drive system for a compressor of a chiller system includes a variable speed drive. The variable speed drive is arranged to receive an input AC voltage at a fixed AC input voltage and provide an output AC power at a variable voltage and variable frequency. The variable speed drive includes a converter connected to an AC power source providing the input AC voltage. The converter is arranged to convert the input AC voltage to a DC voltage. A DC link is connected to the converter. The DC link filters and stores the DC voltage from the converter. An inverter is connected to the DC link. A motor connectable to the compressor for powering the compressor. An active filter connected in parallel with the motor. The active filter is arranged to generate high frequency currents having a magnitude and opposite polarity, with respect to the output AC power of the variable speed drive. The high frequency currents generated by active filter substantially cancel out high frequency currents flowing into the motor. | 04-08-2010 |