| Patent application number | Description | Published |
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| 20080224846 | REMOTE SERVICE AUDIBLE ARMING STATE ANNUNCIATION - This invention relates to accessing security systems through a communication system such as the Internet, a LAN or a WAN, using a virtual remote keypad application which includes an audio capability to enhance user understanding of the security system's status. The virtual remote keypad application receives status information from the user's security system and audibly announces a change in status to the user. | 09-18-2008 |
| 20080284580 | VIDEO ALARM VERIFICATION - A method for monitoring an alarm zone within a perimeter, border and/or building includes capturing video image data of an alarm event detected in the alarm zone, and automatically establishing a cell phone session with an end-user to verify a true or false nature of the detected alarm. The end-user may use the cell phone display to review the video during the cell phone session, and may use the cell phone's key for the verifying. The novel monitoring method with end-user alarm event verification avoids false alarms being raised where the nature of the detected alarm event is false, and the verifying occurs before a false alarm is raised/communicated. | 11-20-2008 |
| 20100261386 | POWER LINE CARRIER NETWORK COMBINED WITH POWER SUPPLY - An adapter is provided for connecting to an electrical wall outlet. The adapter includes a housing, a power conductor extending from the housing and that couples to a power side of the electrical wall outlet, a neutral conductor extending from the housing that couples to a neutral side of the electrical wall outlet, a receptacle disposed in the housing and indirectly coupled to the power and neutral conductors that receives a low voltage plug and that couples a low voltage data signal between the low voltage plug and wall outlet through the power and neutral conductors. | 10-14-2010 |
| Patent application number | Description | Published |
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| 20110246267 | Systems and Methods for Attribution of a Conversion to an Impression Via a Demand Side Platform - The present invention is directed towards methods and systems for attribution of a conversion to an impression via a demand side service executing on one or more servers. The demand side service may match conversion events that occurred within a period of time of advertisements to impressions corresponding to the advertisements. The demand side service may identify a plurality of event records for the conversion events matched to the impressions. The demand side service may match an event of an event record from the plurality of event records corresponding to an advertiser and a user, to a plurality of impressions matched by the demand side service for the advertiser and the user. The demand side service may select an impression from the plurality of impressions with a time stamp less than a time stamp of a conversion event of the event record. The demand side service may further store an attribution of the selected impression with the conversion event of the event record. | 10-06-2011 |
| 20110246297 | Systems and Methods for Using Server Side Cookies by a Demand Side Platform - The present disclosure is directed to methods for identifying a user by a demand side platform (DSP) across advertiser exchanges. The method includes establishing, by a DSP, a cookie mapping for a user. The cookie mapping includes a mapping of user identifiers for the user from advertisement exchanges to a user identifier assigned by the DSP for the user. The DSP stores to the cookie mapping a first mapping to the user identifier of the DSP, comprising a first user id received by a bidder from a first exchange and a first exchange id for the first exchange. A bidder inserts a pixel into a bid for an impression opportunity to a second exchange. The pixel includes a key to the cookie mapping and a second user id for the user and a second exchange id. The second user id is received by the bidder from a second exchange. | 10-06-2011 |
| 20110246298 | Systems and Methods for Integration and Anomymization of Supplier Data - The present solution is directed to methods and systems for maintaining anonymity of segment data from a third party provider while performing segment targeting via a demand side platform (DSP). The DSP receives one or more segment identifiers for segment data from a data supplier. The DSP may provide a pixel for segmented targeting of an impression opportunity for an advertisement exchange. The DSP may receive from the data supplier, a tracking agent to associate data collected via the demand side platform with the segment identifier. A bidder of the DSP provides a placement of an advertisement matched to an impression opportunity, the placement including the tracking agent and the pixel. The DSP may receive segment data from the data supplier based on execution of the tracking agent, the segment data corresponding to the segment identifier for the placement. | 10-06-2011 |
| Patent application number | Description | Published |
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| 20090297669 | FOOD-GRADE TONER - A toner consists essentially of food-grade components. Because the toner consists essentially of food-grade components, it can be used to provide a coating or create an image on food products, including those intended for human or animal consumption. | 12-03-2009 |
| 20090304947 | USE OF POWDERS FOR CREATING IMAGES ON OBJECTS, WEBS OR SHEETS - Monochromatic or multichromatic images may be created on surfaces. The surface is moved to first, second and third stations. The surface is electrically biased, and powder is transferred to the surface electrostatically at the first station. The powder is fused or sintered selectively on the surface at the second station. Unfused or unsintered portions of the powder are removed from the surface at the third station. | 12-10-2009 |
| 20110135836 | Non-interactive electrostatic deposition of induction charged conductive powder - A method for manufacturing electrodes using an electrostatic deposition unit. In the first step of the process a mixture of magnetic carrier beads and a conductive powder is prepared in the sump of the deposition unit; the mixture forms a magnetic brush on the sleeve of the deposition unit. In the second step of the process, the substrate is positioned away from the magnetic brush to form an air gap. In the third step of the process, a voltage is applied between the substrate and the sleeve of the deposition unit in order to produce a large asymmetry between the magnetic brush and said substrate such that the electric field at the magnetic brush is at least 3.0 times as great as the electric field at the substrate. In the fourth step of the process, conductive powder is deposited onto the substrate. | 06-09-2011 |
