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Belsley
Dale J. Belsley, South Lyon, MI US
| Patent application number | Description | Published |
|---|---|---|
| 20090205282 | WALL SYSTEM - A wall system includes a stud member, a bracket assembly mounted to the stud member, and at least one block member supported by the bracket assembly. An adhesive is applied at least between the stud member and the at least one block member. The stud member and the at least one block member establish a composite wall unit. | 08-20-2009 |
| 20100095628 | WALL SYSTEM - A wall system includes a bracket assembly and at least one block member. The bracket assembly establishes a self-supporting wall frame. The at least one block member is supported on the self-supporting wall frame. The at least one block member includes an outer face, an inner face, and a top face extending between said outer face and said inner face. The top face locates the at least one block member on the self-supporting wall frame. | 04-22-2010 |
Kendall Belsley, Falls Church, VA US
| Patent application number | Description | Published |
|---|---|---|
| 20090153872 | CHIRPED COHERENT LASER RADAR SYSTEM AND METHOD - A laser radar system using collocated laser beams to unambiguously detects a range of a target and a range rate at which the target is moving relative to the laser radar system. Another aspect of various embodiments of the invention may relate to a laser radar system that uses multiple laser radar sections to obtain multiple simultaneous measurements (or substantially so), whereby both range and range rate can be determined without various temporal effects introduced by systems employing single laser sections taking sequential measurements. In addition, other aspects of various embodiments of the invention may enable faster determination of the range and rate of the target, a more accurate determination of the range and rate of the target, and/or may provide other advantages. | 06-18-2009 |
| 20110273699 | Chirped Coherent Laser Radar System and Method - A laser radar system using collocated laser beams to unambiguously detects a range of a target and a range rate at which the target is moving relative to the laser radar system. Another aspect of various embodiments of the invention may relate to a laser radar system that uses multiple laser radar sections to obtain multiple simultaneous measurements (or substantially so), whereby both range and range rate can be determined without various temporal effects introduced by systems employing single laser sections taking sequential measurements. In addition, other aspects of various embodiments of the invention may enable faster determination of the range and rate of the target, a more accurate determination of the range and rate of the target, and/or may provide other advantages. | 11-10-2011 |
Kendall L. Belsley, Falls Church, VA US
| Patent application number | Description | Published |
|---|---|---|
| 20090216093 | SYSTEM AND METHOD FOR REMOTELY MONITORING PHYSIOLOGICAL FUNCTIONS - A system and method for remotely monitoring an individual, in accordance with some embodiments of the invention. More particularly, one or more physiological functions and/or physical activities of the individual may be monitored. In order to monitor the individual, a range to, and/or a range rate (i.e., velocity) of, one or more points on one or more surfaces of the individual (e.g., skin, clothing, lips, etc.) may be determined over time. Based on the determinations of the range and/or range rate of the points on the surfaces of the individual, the one or more physiological functions and/or physical activities of the individual may be monitored. This may enable the physiological functions and/or physical activities to be monitored remotely from the individual without access or proximity to the individual. | 08-27-2009 |
| 20100201945 | SYSTEM AND METHOD FOR TRACKING EYEBALL MOTION - Detecting position information related to a face, and more particularly to an eyeball in a face, using a detection and ranging system, such as a Radio Detection And Ranging (“RADAR”) system, or a Light Detection And Ranging (“LIDAR”) system. The position information may include a location of the eyeball, translational motion information related to the eyeball (e.g., displacement, velocity, acceleration, jerk, etc.), rotational motion information related to the eyeball (e.g., rotational displacement, rotational velocity, rotational acceleration, etc.) as the eyeball rotates within its socket. | 08-12-2010 |
Kendall Lee Belsley, Falls Church, VA US
| Patent application number | Description | Published |
|---|---|---|
| 20110298912 | WAVEFRONT SENSING FOR BIOMETRIC IMAGING - Devices and approaches for addressing wavefront corruption in biometric applications. A biometric imaging system may have a laser, a wavefront sensor, and an optical system. The laser may be configured to project a laser spot onto a skin portion of a human face, and the optical system may be configured to collect scattered light from the laser spot and relay the light to the wavefront sensor. The biometric imaging system may also have an adaptive optical element and a controller configured to provide actuation commands to the adaptive optical element based at least in part upon a wavefront distortion measurement output from the wavefront sensor. The optical system may further be configured to relay image light to an image camera of the optical system. The image camera may be an iris camera configured for obtaining iris images suitable for biometric identification. | 12-08-2011 |