1 |
Automated camera tracking system for tracking objects |
US14713705 |
2015-05-15 |
US09967470B2 |
2018-05-08 |
Bradley Paz |
A camera tracking system allows a camera to lock onto and follow a target object dynamically and automatically, without direct human intervention, including when the object moves erratically or unpredictably. |
2 |
Method for positioning a vehicle |
US15216260 |
2016-07-21 |
US09915735B2 |
2018-03-13 |
Nikolas Wagner; Marco Moebus; Bruno Praunsmaendel |
A method for positioning a vehicle includes deriving an estimated position of the vehicle by way of a satellite signal received from the vehicle, receiving a correction signal from a second vehicle, and correcting the estimated position by way of the correction signal. |
3 |
Camera tracking system |
US14120285 |
2014-05-15 |
US20150331083A1 |
2015-11-19 |
Bradley Paz |
The Camera Tracking System operation is the operator sets the camera up and attaches the signal module to the person or object that is to be filmed. The operator will use the control device or module (smart Phone) to jog the camera until the person or object wearing the device is in full view of the camera. The operator will then push the initiation button. At that point the system is functioning and it will follow the person wearing the signal module everywhere no matter if the person is in full view or not. |
4 |
Augmented reality display of dynamic target object information |
US14695636 |
2015-04-24 |
US09734403B2 |
2017-08-15 |
Brian Bare; Jonathan Martin; Paul Sells; Patrick Ryan; Mark Lawrence |
A method for providing target object information to a mobile device user is presented. The method includes receiving a request for target object information from a mobile device, determining the pose of the mobile interface device relative to the target object, and obtaining target object data for one or more measurable target object parameters (e.g., surface topography). The target object data is used to assemble augmented reality information configured for viewing in conjunction with a real-time view of the target object captured by the mobile interface device. The target object augmented reality information is then transmitted to the mobile device for display to the user. |
5 |
Augmented Reality Display of Dynamic Target Object Information |
US14695636 |
2015-04-24 |
US20150310279A1 |
2015-10-29 |
Brian Bare; Jonathan Martin; Paul Sells; Patrick Ryan; Mark Lawrence |
A method for providing target object information to a mobile device user is presented. The method includes receiving a request for target object information from a mobile device, determining the pose of the mobile interface device relative to the target object, and obtaining target object data for one or more measurable target object parameters (e.g., surface topography). The target object data is used to assemble augmented reality information configured for viewing in conjunction with a real-time view of the target object captured by the mobile interface device. The target object augmented reality information is then transmitted to the mobile device for display to the user. |
6 |
LATERAL VEHICLE CONTACT WARNING SYSTEM |
US14089411 |
2013-11-25 |
US20150145694A1 |
2015-05-28 |
Florian DUPONT |
A vehicle contact warning system includes a detector system, a controller and a warning indicator. The detector system detects a distance between a remote vehicle and a host vehicle and whether a signal indicator on the remote vehicle is activated. The controller determines whether at least one of a signal indicator on the host vehicle is activated by a driver of the host vehicle and a speed at which the distance between the host vehicle and the remote vehicle is decreasing is greater than a predetermined speed. The warning indicator notifies the driver of the host vehicle upon the detector system detecting the signal indicator on the remote vehicle and the controller determining that at least one of the signal indicator of the host vehicle is activated and the speed at which the distance between the host vehicle and the remote vehicle is decreasing is greater than the predetermined speed. |
7 |
協調制御装置、協調制御方法および協調制御プログラム |
JP2014526708 |
2013-03-22 |
JP5884909B2 |
2016-03-15 |
清水 大晃 |
|
8 |
System and method for using augmented reality display in surface treatment procedures |
US14824567 |
2015-08-12 |
US09864909B2 |
2018-01-09 |
Brian Bare; Jonathan Martin; Patrick Ryan; Paul Sells; Mark Lawrence |
A method for providing target object surface information to a mobile device user is presented. The method includes receiving a request for target object surface information from a mobile device, determining the pose of the mobile interface device relative to the target object, and obtaining target object surface information for one or more measurable target object surface parameters. The target object data is used to assemble augmented reality surface information configured for viewing in conjunction with a real-time view of the target object captured by the mobile interface device. The target object augmented reality surface information is then transmitted to the mobile device for display to the user. |
9 |
METHOD FOR POSITIONING A VEHICLE |
US15216260 |
2016-07-21 |
US20170031031A1 |
2017-02-02 |
Nikolas WAGNER; Marco MOEBUS; Bruno PRAUNSMAENDEL |
A method for positioning a vehicle includes deriving an estimated position of the vehicle by way of a satellite signal received from the vehicle, receiving a correction signal from a second vehicle, and correcting the estimated position by way of the correction signal. |
10 |
Lateral vehicle contact warning system |
US14089411 |
2013-11-25 |
US09251709B2 |
2016-02-02 |
Florian Dupont |
A vehicle contact warning system includes a detector system, a controller and a warning indicator. The detector system detects a distance between a remote vehicle and a host vehicle and whether a signal indicator on the remote vehicle is activated. The controller determines whether at least one of a signal indicator on the host vehicle is activated by a driver of the host vehicle and a speed at which the distance between the host vehicle and the remote vehicle is decreasing is greater than a predetermined speed. The warning indicator notifies the driver of the host vehicle upon the detector system detecting the signal indicator on the remote vehicle and the controller determining that at least one of the signal indicator of the host vehicle is activated and the speed at which the distance between the host vehicle and the remote vehicle is decreasing is greater than the predetermined speed. |
11 |
System and Method for Using Augmented Reality Display in Surface Treatment Procedures |
US14824567 |
2015-08-12 |
US20150347854A1 |
2015-12-03 |
Brian Bare; Jonathan Martin; Patrick Ryan; Paul Sells; Mark Lawrence |
A method for providing target object surface information to a mobile device user is presented. The method includes receiving a request for target object surface information from a mobile device, determining the pose of the mobile interface device relative to the target object, and obtaining target object surface information for one or more measurable target object surface parameters. The target object data is used to assemble augmented reality surface information configured for viewing in conjunction with a real-time view of the target object captured by the mobile interface device. The target object augmented reality surface information is then transmitted to the mobile device for display to the user. |
12 |
CAMERA TRACKING SYSTEM |
US14713705 |
2015-05-15 |
US20150334311A1 |
2015-11-19 |
Bradley Paz |
A camera tracking system allows a camera to lock onto and follow a target object dynamically and automatically, without direct human intervention, including when the object moves erratically or unpredictably. |