Patent application number | Description | Published |
20090138332 | SYSTEM AND METHOD FOR DYNAMICALLY ADAPTING A USER SLIDE SHOW PRESENTATION TO AUDIENCE BEHAVIOR - The invention is directed to a system and method for dynamically adapting a computer implemented user presentation to an audience behavior reaction. The system senses biometrics information in real-time, compares it to a reference audience behavior, and adjusts the show accordingly by modifying parameters of the presentation. | 05-28-2009 |
20090146841 | SYSTEM AND METHOD FOR AUTOMATICALLY ADJUSTING TRAFFIC LIGHT - A system, program product and method for automatically adjusting the traffic light of a traffic light controlled intersection. Personal data relative to a pedestrian cross walking the intersection, including walking speed, and the current speed of a vehicle approaching the intersection are simultaneously acquired. Both the personal data and the vehicle current speed are processed to generate cross walk control signals, such as indicators of risk of collision between vehicle and pedestrian. Where the risk warrants action, the “stop” condition of the traffic light is enable to warn the vehicle to stop. Traffic control signals are also generated to control the duration of the “walk” condition for slow moving pedestrians. | 06-11-2009 |
20120062596 | PROVIDING AUGMENTED REALITY INFORMATION - A system, method and computer program product for providing augmented reality information is disclosed. The method includes capturing an image of a set of items with an image capturing component coupled to a network-enabled computing device associated with a user identifier. The captured image is processed to identify each item of the set of items while a predefined list of user's preferences is retrieved using the user identifier. For each identified item, checking is made if the item matches a condition related to the predefined list of user's preferences. And based on the matching result, item information is conveyed to the network-enabled computing device and overlaid on the image. | 03-15-2012 |
20130218518 | AUTOMATED, THREE DIMENSIONAL MAPPABLE ENVIRONMENTAL SAMPLING SYSTEM AND METHODS OF USE - An automated, 3D mappable environmental sampling system and methods of use is disclosed herein. The method includes routing one or more sensors throughout a facility. The method further includes collecting environmental data on a continuous basis from the one or more sensors at various locations throughout the facility. The method further includes determining whether discrepancies exist between the collected environmental data and acceptable levels of environmental data. | 08-22-2013 |
20130268242 | Sparse Representation for Dynamic Sensor Networks - A method, an apparatus and an article of manufacture for evaluating data from a network of sensors. The method includes analyzing data received from at least one sensor using exemplar-based sparse representation processing to create a sparse representation of the data, determining at least one discrete sparse characteristic of an event in the data received from the at least one sensor based on the sparse representation of the data, and evaluating the at least one discrete sparse characteristic of an event in the data to perform at least one task associated with the representation of the event in the data. | 10-10-2013 |
20140112201 | Forming a Convex Polygon of Mobile Sensors - Forming a convex polygon of a plurality of mobile sensors in an area is provided. Sensor output data received from the plurality of mobile sensors in the area is analyzed using an optimization problem. It is determined whether the plurality of mobile sensors forms the convex polygon in the area. In response to determining that the plurality of mobile sensors does form the convex polygon in the area, an objective function and a set of constraints corresponding to the optimization problem are generated. Then, a sparse solution of the optimization problem is calculated using the objective function and the set of constraints to determine vector weight values for each of the plurality of mobile sensors. | 04-24-2014 |
20140114625 | Forming a Convex Polygon of Mobile Sensors - Forming a convex polygon of a plurality of mobile sensors in an area is provided. Sensor output data received from the plurality of mobile sensors in the area is analyzed using an optimization problem. It is determined whether the plurality of mobile sensors forms the convex polygon in the area. In response to determining that the plurality of mobile sensors does form the convex polygon in the area, an objective function and a set of constraints corresponding to the optimization problem are generated. Then, a sparse solution of the optimization problem is calculated using the objective function and the set of constraints to determine vector weight values for each of the plurality of mobile sensors. | 04-24-2014 |
20140372597 | OPTIMIZING RESOURCE USAGE IN SYSTEMS WHICH INCLUDE HETEROGENEOUS DEVICES, INCLUDING SENSORS AND SMARTPHONES - Managing devices in a system may comprise receiving information associated with a first device in the system and a first set of capabilities provided in the first device; receiving information associated with a second device in the system and a second set of capabilities provided in the second device; determining one or more required capabilities that need to be activated for the system, the system comprising at least the first device and the second device; for each of the one or more required capabilities, selecting automatically by a processor based on the information received and one or more criteria, which capability in the first device and the second device to activate to satisfy the one or more required capabilities; and activating said selected capability in the first device or the second device. | 12-18-2014 |
20140372598 | OPTIMIZING RESOURCE USAGE IN SYSTEMS WHICH INCLUDE HETEROGENEOUS DEVICES, INCLUDING SENSORS AND SMARTPHONES - Managing devices in a system may comprise receiving information associated with a first device in the system and a first set of capabilities provided in the first device; receiving information associated with a second device in the system and a second set of capabilities provided in the second device; determining one or more required capabilities that need to be activated for the system, the system comprising at least the first device and the second device; for each of the one or more required capabilities, selecting automatically by a processor based on the information received and one or more criteria, which capability in the first device and the second device to activate to satisfy the one or more required capabilities; and activating said selected capability in the first device or the second device. | 12-18-2014 |
20150019069 | REVERSE EVENT SIGNATURE FOR IDENTIFYING HIT AND RUN VEHICLES - Identifying a vehicle involved in a hit-and-run accident may comprise generating a damage signature associated with a first vehicle that is left behind with collision damage in a hit-and-run accident. A reverse event signature may be generated that indicates a position of impact and severity of damage associated with a second vehicle involved in the hit-and-run accident that fled a scene of the hit-and-run accident. The generating of the reverse event signature may be based on reverse engineering the damage signature associated with the first vehicle. | 01-15-2015 |
20150019447 | REVERSE EVENT SIGNATURE FOR IDENTIFYING HIT AND RUN VEHICLES - Identifying a vehicle involved in a hit-and-run accident may comprise generating a damage signature associated with a first vehicle that is left behind with collision damage in a hit-and-run accident. A reverse event signature may be generated that indicates a position of impact and severity of damage associated with a second vehicle involved in the hit-and-run accident that fled a scene of the hit-and-run accident. The generating of the reverse event signature may be based on reverse engineering the damage signature associated with the first vehicle. | 01-15-2015 |