Patent application number | Description | Published |
20100174507 | METHOD AND SYSTEM FOR MEASURING ANGLES BASED ON 360 DEGREE IMAGES - A system for measuring angles includes a housing and an imaging device disposed in the housing. The system also includes a first optical element disposed in the housing and configured to receive light propagating from a first target along a first optical path and direct the light toward the imaging device and receive light propagating from a second target along a second optical path and direct the light toward the imaging device. The system further includes a processor in electrical communication with the imaging device and configured to receive data from the imaging device, compute a 360° angular map based on the received data, and determine an angular separation between the first target and the second target. | 07-08-2010 |
20110264405 | METHOD AND SYSTEM FOR MEASURING ANGLES BASED ON 360 DEGREE IMAGES - A surveying apparatus includes a support structure and a reflective surface mechanically coupled to the support structure. The reflective surface is configured to receive panoramic data over a 360° field of view. The surveying apparatus also includes an optical system mechanically coupled to the support structure and optically coupled to the reflective surface. The surveying apparatus further includes an imaging system mechanically coupled to the support structure and optically coupled to the optical system and a processor. The processor is configured to receive data from the imaging system and compute an angular measurement based on the received data. | 10-27-2011 |
20130002807 | METHOD AND SYSTEM FOR MEASURING ANGLES BASED ON 360 DEGREE IMAGES - A method of measuring an angle includes orienting a measurement device at a reference position characterized by a reference angle. A first panoramic image defined by a predetermined range of elevation angles is acquired where the first panoramic image includes an object. A first bearing of the object in relation to the reference angle is determined and the measurement device is rotated to a measurement position characterized by a measurement angle. A second panoramic image defined by the predetermined range of elevation angles is acquired where the second panoramic image includes the object. A second bearing of the object in relation to the reference angle is determined. The measurement angle is computed as a function of the first bearing and the second bearing. | 01-03-2013 |
20130073605 | Publication of Equipment Status - This disclosure concerns novel tools and techniques for distributing status information, including without limitation status information about commercial equipment. In some cases, a status monitoring device can be attached to, incorporated within, or otherwise placed in communication with a piece of commercial equipment. The status monitoring device can monitor the status of the equipment and communicate that status. Some of the discloses tools and techniques employ a social networking infrastructure to convey information (such as status information about a piece of equipment). | 03-21-2013 |
20130100279 | SYSTEM AND METHODS FOR CONTROLLING A SURVEYING DEVICE - A system and methods are provided for controlling a surveying device. In one embodiment, a method includes displaying a control screen including image data captured by a surveying device, detecting an input associated with the control screen, and determining a control command for the surveying device based on the input associated with the control screen. The method may further include controlling operation of the surveying device based on the control command, wherein the surveying device is configured to rotate in one more of a horizontal and vertical direction based on the control command. The device and methods may advantageously allow for precise pointing of a surveying device and translation of input position to surveying device commands. | 04-25-2013 |
20140104602 | METHOD AND SYSTEM FOR MEASURING ANGLES BASED ON 360 DEGREE IMAGES - A method of measuring an angle includes orienting a measurement device at a reference position characterized by a reference angle. A first panoramic image defined by a predetermined range of elevation angles is acquired where the first panoramic image includes an object. A first bearing of the object in relation to the reference angle is determined and the measurement device is rotated to a measurement position characterized by a measurement angle. A second panoramic image defined by the predetermined range of elevation angles is acquired where the second panoramic image includes the object. A second bearing of the object in relation to the reference angle is determined. The measurement angle is computed as a function of the first bearing and the second bearing. | 04-17-2014 |
20140254865 | Image Identification Method and System - Novel tools and techniques are described for identifying objects and/or persons. In one aspect, a method might comprise obtaining a digital image of an object(s) with a digital image recording device. The digital image may be transmitted to a remote computer system, and compared to multiple preexisting digital images using an image comparison software application running thereon. A set of preexisting digital images matching the digital image of the object(s) may be identified, and a (best match) keyphrase associated with the preexisting digital images may be determined. The keyphrase may be returned to a user computer for user confirmation or rejection. In some embodiments, a point cloud may be generated for each object in the image, and fitted with available 3D models, so as to confirm the keyphrase. In some embodiments, the confirmed keyphrase may be sent to a user computer for implementation in a cadastral survey application. | 09-11-2014 |
20140257906 | Workflow Management Method and System - Novel tools and techniques are described for managing workflow for projects, including, without limitation, cadastral survey projects. In one aspect, a method might comprise providing a workflow management schedule to a user over a network from a remote computer system. The remote computer system might compare one or more workflow items—including one or more of a task, a meeting, a project, a deadline, a time, a date, one or locations, or required data—on the workflow management schedule with workflow items on reference schedules, and identifying one or more necessary workflow items not included on the workflow management schedule, based on the comparison. The remote computer system might add the one or more necessary workflow items to the workflow management schedule. The remote computer system might additionally define, and send to the user, a scope of work associated with each necessary workflow item, based on reference scopes of work. | 09-11-2014 |