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Kari J.
Kari J. Bonestroo, Cocoa, FL US
| Patent application number | Description | Published |
|---|---|---|
| 20110085033 | SURVEILLANCE SYSTEM FOR TRANSCODING SURVEILLANCE IMAGE FILES WHILE RETAINING IMAGE ACQUISITION TIME METADATA AND ASSOCIATED METHODS - A surveillance video system may include a surveillance image database storing a sequence of surveillance image files for a common area having image acquisition time metadata associated therewith, the sequence of surveillance image files defining an image acquisition rate. A processor may cooperate with the surveillance image database and may be configured to transcode the surveillance image files into a sequence of surveillance video frames retaining the image acquisition time metadata and at a video frame rate different from the image acquisition rate. The processor may also be configured to assemble a surveillance video transport stream from the sequence of surveillance video frames and retaining the image acquisition time metadata. | 04-14-2011 |
| 20110085034 | SURVEILLANCE SYSTEM FOR TRANSCODING SURVEILLANCE IMAGE FILES WHILE RETAINING GEOSPATIAL METADATA AND ASSOCIATED METHODS - A surveillance video system may include a surveillance image database storing a sequence of surveillance image files for a common area having geospatial metadata associated therewith. A processor may cooperate with the surveillance image database and configured to transcode the surveillance image files into a sequence of surveillance video frames retaining the geospatial metadata. The processor may also be configured to assemble a surveillance video transport stream from the sequence of surveillance video frames retaining the geospatial metadata, and to selectively deliver the surveillance video transport stream retaining the geospatial metadata to at least one surveillance video user. | 04-14-2011 |
| 20110085039 | SURVEILLANCE SYSTEM WITH TARGET BASED SCROLLING AND RELATED METHODS - A surveillance video system may include a first device configured to process successive surveillance image files of a common area into an image transport stream for a selectable region of interest within the common area. The surveillance video system also may include a second device remote from the first device and in communication with the first device. The second device may include a display and a processor cooperating therewith. The processor may be configured to scroll the selectable region of interest to maintain a selected moving target visible on the display. | 04-14-2011 |
Kari J. Hooli, Oulu FI
| Patent application number | Description | Published |
|---|---|---|
| 20110150120 | Reference signal resource randomization with SU-MIMO - For an integer number R (greater than one) of demodulation reference signal DM RS resources that are reserved for SU-MIMO transmissions by a UE, there is associated in a memory a) for a first transmission instance each of the R DM RS resources with a unique one of R spatial layers or R transmit antennas, and b) for a second transmission instance each of the R DM RS resources with a different unique one of the R spatial layers or transmit antennas. The first and second transmission instances (slots or sub-frames) are consecutive. A UE transmission to a network in the first slot/sub-frame comprises each DM RS resource on the respective spatial layer or transmit antenna with which they are associated for the first slot/sub-frame, and a UE transmission to the network in the first slot/sub-frame comprises each DM RS resource on the respective spatial layer or transmit antenna with which they are associated for the second slot/sub-frame. | 06-23-2011 |
Kari J. Rinko, Helsinki FI
| Patent application number | Description | Published |
|---|---|---|
| 20110244187 | Internal Cavity Optics - This disclosure is directed to techniques to manufacture internal cavity optical patterns and to apparatuses manufactured using the manufacturing techniques. Internal cavity optical patterns include small cavities (e.g., microcavities, nanocavities, etc.) spread across a surface of a thin transparent material. The thin material may then be laminated to a second material to join the surface having the cavities with the second material and thereby enclose the cavities within the resulting combination. The internal cavities may be filled with air or another medium (e.g., a fluid, gas, or solid), which enable the cavity to redirect light in accordance with design requirements. By manufacturing the internal cavity optics in this manner, the cavities may remain free of debris that may reduce an effectiveness of the optics. In some instances, additional layers of material may be laminated together to create additional layers of the internal cavity optics. | 10-06-2011 |