Patent application number | Description | Published |
20110078023 | ADVERTISEMENTS WITHIN TELEVISION ADVERTISEMENTS - One or more devices send, over a network, an advertisement for presentation by a video client, where the advertisement includes a trigger for secondary advertising content that is presented, within a hotspot designated in the primary advertisement, as part of the primary advertisement. The one or more devices receive, via the network, a notification from the video client that a user has selected the trigger and determine, based on the notification, particular secondary advertising content to be presented to the user. The one or more devices send, over the network, instructions to the video client to retrieve the particular secondary advertising content for presentation to the user. | 03-31-2011 |
20110078723 | REAL TIME TELEVISION ADVERTISEMENT SHAPING - A multimedia client receives, over a subscription multimedia network, television content for presentation to a viewer, where the television content includes an advertising break and identifies a keyword associated with the television content. The multimedia client sends, over the subscription multimedia network, the keyword to an advertisement server and receives from the advertisement server, an advertisement corresponding to the keyword. The multimedia client then provides, for display to the viewer, the advertisement within the advertising break. | 03-31-2011 |
20110162001 | TRIGGER-BASED TRANSACTIONAL ADVERTISING FOR TELEVISION - A method is performed by one or more devices within a closed distribution network to provide context-sensitive transactional advertisements. The method includes sending, to a video client, a trigger for initiating a context-specific transactional advertisement associated with a linear program segment and sending the linear program segment for presentation by the video client. The method also includes receiving, based on the trigger, a request from the video client for instructions for the context-specific transactional advertisement; determining, based on the request, contextual information for the linear program segment; and sending, to the video client and based on the contextual information, the instructions for the context-specific transactional advertisement. | 06-30-2011 |
Patent application number | Description | Published |
20090157826 | MANAGING UNUSED MEDIA STREAMS - A content processing device is configured to selectively receive a media signal via a network. The content processing device is further configured to receive a bandwidth check request. The content processing device is further configured to receive a first status indicator, and determine if the streaming media signal is likely to be in use based on the first status indicator. | 06-18-2009 |
20100313217 | METHODS AND SYSTEMS FOR RECOVERING FROM ERRORS ASSOCIATED WITH ADVERTISEMENT STREAMS - An exemplary method includes switching, by a media content access subsystem, from a program stream to an advertisement stream in response to a switching instruction received by the media content access subsystem, detecting, by the media content access subsystem, a predetermined number of markers included within the advertisement stream, the predetermined number of markers indicative of an error associated with the advertisement stream, and switching, by the media content access subsystem, from the advertisement stream to another media content stream in response to the detecting of the predetermined number of markers. Corresponding methods and systems are also disclosed. | 12-09-2010 |
20110151829 | METHOD AND APPARATUS FOR NOTIFYING REGISTERED DEVICES OF AN EMERGENCY CALL - An approach is provided for alerting registered devices of an emergency call, detecting an emergency call from a calling device; determining an identifier of the calling device; retrieving a list of one or more registered devices based on the identifier; determining location information of the calling device; and generating a notification message for transmission to the one or more registered devices, wherein the notification message specifies notification of the emergency call and the location information of the calling device. | 06-23-2011 |
20110179356 | Methods and Systems for Dynamically Inserting an Advertisement into a Playback of a Recorded Media Content Instance - An exemplary method includes maintaining data representative of a recorded media content instance comprising a media content program and a first advertisement and an index file corresponding to the recorded media content instance, playing back the recorded media content instance in accordance with timestamp data and storage location data included in the index file, dynamically replacing, during the playback of the recorded media content instance, a portion of the storage location data in the index file that corresponds to the first advertisement with storage location data corresponding to a second advertisement, and presenting the second advertisement in place of the first advertisement during the playback of the recorded media content instance in accordance with the modified index file. Corresponding methods and systems are also described. | 07-21-2011 |
20110191798 | Dynamic Advertisement Insertion Methods and Systems - An exemplary method includes maintaining data representative of a plurality of advertisements each having one of a plurality of different resolutions, detecting a message indicative of an upcoming advertisement break in a media content program being transmitted to a media content access device by way of a content channel, detecting a resolution of the media content program, directing a dynamic advertisement delivery subsystem communicatively coupled to the media content access device to dynamically transmit a subset of the advertisements by way of one or more advertisement channels, wherein each advertisement included in the subset has the same resolution as the resolution of the media content program, and distributing tuning information associated with each of the one or more advertisement channels to the media content access device prior to an occurrence of the advertisement break. Corresponding methods and systems are also disclosed. | 08-04-2011 |
20110209175 | Methods and Systems for Synchronizing Delivery of Media Content Streams Having Different Resolutions - An exemplary method includes processing a first program stream representative of media content having a first resolution and a second program stream representative of the media content having a second resolution, generating a single advertisement stream representative of advertisement content having a third resolution, detecting a transmission lag between the first and second program streams, dynamically synchronizing the first and second program streams to substantially remove the detected transmission lag, transmitting the synchronized first program stream by way of a first content channel, the synchronized second program stream by way of a second content channel, and the advertisement stream by way of an advertisement channel, and directing a media content access device to switch from being tuned to the second content channel to being tuned to the advertisement channel during an advertising break in the media content. Corresponding methods and systems are also disclosed. | 08-25-2011 |
20110211049 | Methods and Systems for Presenting Three-Dimensional Video Content - An exemplary method includes receiving, by a three-dimensional (“3D”) adapter subsystem separate from and communicatively coupled to a display device, a 3D video content stream comprising data representative of 3D video content, directing, by the 3D adapter subsystem, the display device to generate and display the 3D video content in accordance with the 3D video content stream, and calibrating, by the 3D adapter subsystem, the display of the 3D video content in accordance with one or more attributes of the display device. Corresponding methods and systems are also described. | 09-01-2011 |
20120151520 | METHODS AND SYSTEMS FOR RECOVERING FROM ERRORS ASSOCIATED WITH ADVERTISEMENT STREAMS - An exemplary method includes switching, by a media content access subsystem, from a program stream to an advertisement stream in response to a switching instruction received by the media content access subsystem, detecting, by the media content access subsystem, a predetermined number of markers included within the advertisement stream, the predetermined number of markers indicative of an error associated with the advertisement stream, and switching, by the media content access subsystem, from the advertisement stream to another media content stream in response to the detecting of the predetermined number of markers. Corresponding methods and systems are also disclosed. | 06-14-2012 |
20120311470 | SYSTEMS AND METHODS FOR PROVIDING A TAILORED USER INTERFACE ASSOCIATED WITH A WEB PAGE - Exemplary systems and methods for providing a tailored user interface associated with a web page are disclosed. An exemplary method includes a user interface computing system identifying, from computing code representative of a web page and based on a predefined element selection heuristic, one or more select elements of the web page and generating a user interface including data representative of the one or more select elements for display on a display screen, the user interface having a presentation scheme that is different from a presentation scheme of the web page and that is tailored to facilitate interaction with the data representative of the one or more select elements by a user utilizing a set of user inputs. Corresponding systems and methods are also disclosed. | 12-06-2012 |
Patent application number | Description | Published |
20090115994 | LASER RANGING, TRACKING AND DESIGNATION USING 3-D FOCAL PLANES - By using 3-D focal plane arrays, the present invention tracks or locates small moving objects, or generates a 3-D frame of data with minimum laser energy and a minimum of mechanically moving parts. In another embodiment the invention is used to determine the direction of a laser designating a target with a minimum of moving parts. In another embodiment the invention is used as a 3-D movie/video camera. In yet another embodiment the device is used to provide data for autonomous navigation. | 05-07-2009 |
20100208039 | DIMENSIONING SYSTEM - The present invention determines the dimensions and volume of an object by using a novel 3-D camera that measures the distance to every reflective point in its field of view with a single pulse of light. The distance is computed by the time of flight of the pulse to each camera pixel. The accuracy of the measurement is augmented by capture of the laser pulse shape in each camera pixel. The camera can be used on an assembly line to develop quality control data for manufactured objects or on a moving or stationary system that weighs as well as dimensions the objects. The device can also ascertain the minimum size of a box required to enclose an object. | 08-19-2010 |
20100309288 | 3-DIMENSIONAL HYBRID CAMERA AND PRODUCTION SYSTEM - A hybrid three dimensional imaging camera comprises a 2-D video camera utilizing a focal plane array visible light detector and a 3-D flash laser radar utilizing an infrared focal plane array detector. The device is capable of capturing a complete 3-D scene from a single point of view. A production system combining multiple hybrid 3-D cameras around a subject provides 3-D solid models of an object or scene in the common field of view. | 12-09-2010 |
20120154785 | Flash Ladar Collision Avoidance System - A vehicular collision avoidance system comprising a system controller, pulsed laser transmitter, a number of independent ladar sensor units, a cabling infrastructure, internal memory, a scene processor, and a data communications port is presented herein. The described invention is capable of developing a 3-D scene, and object data for targets within the scene, from multiple ladar sensor units coupled to centralized LADAR-based Collision Avoidance System (CAS). Key LADAR elements are embedded within standard headlamp and taillight assemblies. Articulating LADAR sensors cover terrain coming into view around a curve, at the crest of a hill, or at the bottom of a dip. A central laser transmitter may be split into multiple optical outputs and guided through fibers to illuminate portions of the 360° field of view surrounding the vehicle. These fibers may also serve as amplifiers to increase the optical intensity provided by a single master laser. | 06-21-2012 |
20120249999 | LASER RANGING TRACKING AND DESIGNATION USING 3-D FOCAL PLANES - The present invention tracks or locates small moving objects, or generates a 3-D frame of data by using 3-D focal plane arrays with low laser energy and few mechanically moving parts. The invention may be used to determine the direction of a laser designating a target, for target tracking, used as a 3-D movie/video camera or used to provide data for autonomous navigation. | 10-04-2012 |
20120261516 | LADAR SENSOR FOR LANDING, DOCKING AND APPROACH - A system for landing or docking a mobile platform is enabled by a flash LADAR sensor having an adaptive controller with Automatic Gain Control (AGC). Range gating in the LADAR sensor penetrates through diffuse reflectors. The LADAR sensor adapted for landing/approach comprises a system controller, pulsed laser transmitter, transmit optics, receive optics, a focal plane array of detectors, a readout integrated circuit, camera support electronics and image processor, an image analysis and bias calculation processor, and a detector array bias control circuit. The system is capable of developing a complete | 10-18-2012 |
20130110390 | LASER RANGING, TRACKING AND DESIGNATION USING 3-D FOCAL PLANES | 05-02-2013 |
20130128257 | AUTOMATIC RANGE CORRECTED FLASH LADAR CAMERA - A three dimensional imaging camera comprises a system controller, pulsed laser transmitter, receiving optics, an infrared focal plane array light detector, and an image processor. The described invention is capable of developing a complete 3-D scene from a single point of view. The 3-D imaging camera utilizes a pulsed laser transmitter capable of illuminating an entire scene with a single high power flash of light. The 3-D imaging camera employs a system controller to trigger a pulse of high intensity light from the pulsed laser transmitter, and counts the time from the start of the transmitter light pulse. The light reflected from the illuminated scene impinges on a receiving optics and is detected by a focal plane array optical detector. An image processor applies image enhancing algorithms to improve the image quality and develop object data for subjects in the field of view of the flash ladar imaging camera. | 05-23-2013 |
20130242283 | PERSONAL LADAR SENSOR - A lightweight, low volume, inexpensive LADAR sensor incorporating 3-D focal plane arrays is adapted specifically for personal electronic appliances. The present invention generates, at high speed, 3-D image maps and object data at short to medium ranges. The techniques and structures described may be used to extend the range of long range systems as well, though the focus is on compact, short to medium range ladar sensors suitable for use in personal electronic devices. 3-D focal plane arrays are used in a variety of physical configurations to provide useful new capabilities to a variety of personal electronic appliances. | 09-19-2013 |
20130286409 | DIMENSIONING SYSTEM - The present invention determines the dimensions and volume of an object by using a novel 3-D camera that measures the distance to every reflective point in its field of view with a single pulse of light. The distance is computed by the time of flight of the pulse to each camera pixel. The accuracy of the measurement is augmented by capture of the laser pulse shape in each camera pixel. The camera can be used on an assembly line to develop quality control data for manufactured objects or on a moving or stationary system that weighs as well as dimensions the objects. The device can also ascertain the minimum size of a box required to enclose an object. | 10-31-2013 |
20140049616 | DIMENSIONING SYSTEM - The present invention determines the dimensions and volume of an object by using a novel 3-D camera that measures the distance to every reflective point in its field of view with a single pulse of light. The distance is computed by the time of flight of the pulse to each camera pixel. The accuracy of the measurement is augmented by capture of the laser pulse shape in each camera pixel. The camera can be used on an assembly line to develop quality control data for manufactured objects or on a moving or stationary system that weighs as well as dimensions the objects. The device can also ascertain the minimum size of a box required to enclose an object. | 02-20-2014 |
20140063200 | LASER RANGING, TRACKING AND DESIGNATION USING 3-D FOCAL PLANES - The present invention tracks or locates small moving objects, or generates a 3-D frame of data by using 3-D focal plane arrays with low laser energy and few mechanically moving parts. The invention may be used to determine the direction of a laser designating a target, for target tracking, used as a 3-D movie/video camera or used to provide data for autonomous navigation. | 03-06-2014 |
20140160460 | FLASH LADAR COLLISION AVOIDANCE SYSTEM - A vehicular collision avoidance system comprising a system controller, pulsed laser transmitter, a number of independent ladar sensor units, a cabling infrastructure, internal memory, a scene processor, and a data communications port is presented herein. The described invention is capable of developing a 3-D scene, and object data for targets within the scene, from multiple ladar sensor units coupled to centralized LADAR-based Collision Avoidance System (CAS). Key LADAR elements are embedded within standard headlamp and taillight assemblies. Articulating LADAR sensors cover terrain coming into view around a curve, at the crest of a hill, or at the bottom of a dip. A central laser transmitter may be split into multiple optical outputs and guided through fibers to illuminate portions of the 360° field of view surrounding the vehicle. These fibers may also serve as amplifiers to increase the optical intensity provided by a single master laser. | 06-12-2014 |
20140293265 | AUTOMATIC RANGE CORRECTED FLASH LADAR CAMERA - A three dimensional imaging camera comprises a system controller, pulsed laser transmitter, receiving optics, an infrared focal plane array light detector, and an image processor. The described invention is capable of developing a complete 3-D scene from a single point of view. The 3-D imaging camera utilizes a pulsed laser transmitter capable of illuminating an entire scene with a single high power flash of light. The 3-D imaging camera employs a system controller to trigger a pulse of high intensity light from the pulsed laser transmitter, and counts the time from the start of the transmitter light pulse. The light reflected from the illuminated scene impinges on a receiving optics and is detected by a focal plane array optical detector. An image processor applies image enhancing algorithms to improve the image quality and develop object data for subjects in the field of view of the flash ladar imaging camera. | 10-02-2014 |
20140320609 | 3-DIMENSIONAL HYBRID CAMERA AND PRODUCTION SYSTEM - A hybrid three dimensional imaging camera comprises a 2-D video camera utilizing a focal plane array visible light detector and a 3-D flash laser radar utilizing an infrared focal plane array detector. The device is capable of capturing a complete 3-D scene from a single point of view. A production system combining multiple hybrid 3-D cameras around a subject provides 3-D solid models of an object or scene in the common field of view. | 10-30-2014 |
20140340487 | MODULAR LADAR SENSOR - A lightweight, low volume, inexpensive LADAR sensor incorporating 3-D focal plane arrays is adapted specifically for modular manufacture and rapid field configurability and provisioning. The present invention generates, at high speed, 3-D image maps and object data at short to medium ranges. The techniques and structures described may be used to extend the range of long range systems as well, though the focus is on compact, short to medium range ladar sensors suitable for use in multi-sensor television production systems and 3-D graphics capture and moviemaking. 3-D focal plane arrays are used in a variety of physical configurations to provide useful new capabilities. | 11-20-2014 |
20140350836 | AUTOMOTIVE AUXILIARY LADAR SENSOR - A vehicle and ladar sensor assembly system is proposed which makes use of forward mounted long range ladar sensors and short range ladar sensors mounted in auxiliary lamps to identify obstacles and to identify potential collisions with the vehicle. A low cost assembly is developed which can be easily mounted within a body panel cutout of a vehicle, and which connects to the vehicle electrical and computer systems through the vehicle wiring harness. The vehicle has a digital processor which interprets 3D data received from the ladar sensor assembly, and which is in control of the vehicle subsystems for steering, braking, acceleration, and suspension. The digital processor onboard the vehicle makes use of the 3D data and the vehicle control subsystems to avoid collisions and steer a best path. | 11-27-2014 |