CLOUDPARC, INC. Patent applications |
Patent application number | Title | Published |
20140236786 | Human Review of an Image Stream for a Parking Camera System - Providing human review of an image stream for a parking camera system is disclosed. Initially, a first image stream is received from a first camera having a first field of view showing a first vehicle or at least one destination location. Next, it is determined that a value for the at least one type of information relating to the at least one destination location or the first vehicle has failed to be automatically detected. In response, an exemption event is generated. Presentation of the at least part of the first image stream to a human operator is then enabled. Finally, the value for the at least one type of information relating to the at least one destination location or the first vehicle is received from the human operator. | 08-21-2014 |
20140218533 | Defining Destination Locations and Restricted Locations Within an Image Stream - Defining destination locations and restricted locations within an image stream is disclosed. Initially, a first image stream is received from a first camera having a first field of view, where the first field of view includes at least one destination location and at least one restricted location. Next, first boundaries of the at least one destination location and a first description of one or more rules associated with the at least one destination location are received. A first identifier is then assigned to the at least one destination location. Next, second boundaries of the at least one restricted location and a second description of one or more rules associated with the at least one restricted location are received. Finally, the first boundaries, the first description of one or more rules, the first identifier, the second boundaries, and the second description of one or more rules are saved. | 08-07-2014 |
20140218532 | Defining a Handoff Zone for Tracking a Vehicle Between Cameras - Defining a handoff zone for tracking a vehicle between cameras is disclosed. Initially, a first image stream is received from a first camera having a first field of view. A second image stream is also received from a second camera having a second field of view, where the second field of view is different from and at least partially overlapping with the first field of view. Next, an overlap area that defines the overlap between the first image stream and the second image stream is determined. A handoff zone within the overlap area is then determined, where tracking of the vehicle is passed from the first camera to the second camera after the vehicle enters the handoff zone. Finally, boundaries of the handoff zone are stored. | 08-07-2014 |
20140211016 | Profiling and Tracking Vehicles Using Cameras - Profiling and tracking vehicles using cameras is disclosed. Initially, two or more first images from a first camera having a first field of view are received. A first static characteristic of a first vehicle is determined based on at least one of the two or more first images. Next, a desired static characteristic of a vehicle of interest is received. The desired static characteristic of the vehicle of interest is compared with the first static characteristic of the first vehicle. In response to the comparison, it is determined that the desired static characteristic of the vehicle of interest is approximately equal to the first static characteristic of the first vehicle. In response, it is determined that the vehicle of interest is present in the first field of view of the first camera. Finally, it is indicated that the vehicle of interest is present in the first field of view. | 07-31-2014 |
20140211012 | Tracking Traffic Violations within an Intersection and Controlling Use of Parking Spaces Using Cameras - Tracking traffic violations within an intersection and use of a destination location are disclosed. Initially, two or more first images from a first camera having a first field of view are received. Next, a first unique identifier of a first vehicle and a violated traffic restriction within the intersection are determined based on the two or more first images. Next, two or more second images from a second camera having a second field of view are received. A second unique identifier and a first characteristic of a second vehicle are determined based on the two or more second images. Next, two or more third images from a third camera having a third field of view are received. That the second vehicle is stopped in a destination location at a first time and that the second vehicle has left the destination location at a second time are determined based on the two or more third images. | 07-31-2014 |
20140207541 | Controlling Use of Parking Spaces Using Cameras - Tracking vehicles is disclosed. Initially, two or more first images from a first camera having a first field of view are received. Next, a first static characteristic and a first dynamic characteristic of a first vehicle are determined based on the two or more first images. Next, two or more second images from a second camera having a second field of view are received. A second static characteristic and a second dynamic characteristic of the first vehicle are determined based on the two or more second images. The first characteristics and the second characteristics are compared to determine that the second characteristics are approximately equal to the first characteristics of the first vehicle. Finally, it is indicated that the first vehicle is present in the second field of view of the second camera. | 07-24-2014 |
20140195313 | Controlling Use of Parking Spaces Using Cameras and Smart Sensors - Tracking use of a destination location is disclosed. A first unique identifier of a first vehicle is received based on a sensor located within the first vehicle. A first location of the first vehicle is determined based on a first vehicle image taken at a second time. A second location of the first vehicle is determined based on a second vehicle image taken at a third time. Finally, it is indicated that the first vehicle began use of the destination location at the second time and that the first vehicle completed use of the destination location at the third time. | 07-10-2014 |
20140188580 | Controlling Use of Parking Spaces Using Cameras and Smart Sensors - Tracking use of a destination location is disclosed. Based on a first vehicle image showing a first vehicle, a first unique identifier of the first vehicle is determined. Next, based on a first location of the first vehicle received based on a sensor located within the first vehicle, it is determined that the first vehicle is occupying the destination location at a second time. Next, based on a second location of the first vehicle received based on the sensor located within the first vehicle, it is determined that the first vehicle has left the destination location at a third time. Finally, it is indicated that the first vehicle began use of the destination location at the second time and that the first vehicle completed use of the destination location at the third time. | 07-03-2014 |
20140172520 | INDICATOR FOR AUTOMATED PARKING SYSTEMS - Indicating payment for use of a destination location is disclosed. First, it is determined that a vehicle has approached the destination location. In response, it is determined that that the destination location is associated with automated parking services. In response, a first activation signal is forwarded to an indicator. Next, it is determined that the vehicle is within the destination location at a first time. In response, it is determined that an account associated with the vehicle is configured to make payment for parking of the vehicle within the destination location. Then, payment for the parking of the vehicle within the destination location is activated. Finally, in response, a second activation signal that differs from the first activation signal is forwarded to the indicator. | 06-19-2014 |
20140172519 | Controlling Use of Parking Spaces Using Cameras and Smart Sensors - Tracking use of a destination location is disclosed. Based on a first vehicle image showing a first vehicle at a first location and on the first location of the first vehicle received based on a sensor located within the first vehicle, it is determined that the first vehicle is occupying the destination location at the first time. Next, based on a second vehicle image showing the first vehicle at a second location and on the second location of the first vehicle received based on the sensor located within the first vehicle, it is determined that the first vehicle has left the destination location at the second time. Finally, it is indicated that the first vehicle began use of the destination location at the first time and that the first vehicle completed use of the destination location at the second time. | 06-19-2014 |