Panasonic intellectual property management co., ltd. (20240345715). DATA ANALYSIS DEVICE AND METHOD simplified abstract
Contents
DATA ANALYSIS DEVICE AND METHOD
Organization Name
panasonic intellectual property management co., ltd.
Inventor(s)
Daijiroh Ichimura of Hyogo (JP)
DATA ANALYSIS DEVICE AND METHOD - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240345715 titled 'DATA ANALYSIS DEVICE AND METHOD
The abstract describes a data analysis device that controls the generation of data strings indicating detection results of objects in a field over time.
- The device includes a display for showing information, an input interface for user operations, and a processor that manages the detection results to generate data strings.
- The processor displays information on the display, including an adjacency range where ends of multiple data string fragments are adjacent in the field.
- Users can adjust a parameter through the input interface to determine how the fragments connect in the adjacency range, and the processor applies this parameter to the data controller based on user input.
Potential Applications: - Surveillance systems for tracking objects in a field - Industrial automation for monitoring and controlling processes - Environmental monitoring for studying patterns of movement in natural habitats
Problems Solved: - Efficiently managing and analyzing data on detected objects - Providing users with control over how data fragments are connected - Enhancing the visualization of detection results in a field
Benefits: - Improved accuracy in tracking and analyzing object detection - Customizable parameters for connecting data fragments - Enhanced user interface for interacting with detection results
Commercial Applications: Title: "Advanced Data Analysis Device for Object Detection in Fields" This technology can be applied in industries such as security, manufacturing, and research where monitoring and analyzing object detection data is crucial for operations and decision-making. The device offers a user-friendly interface and customizable parameters, making it valuable for businesses seeking efficient data analysis solutions.
Prior Art: Readers can explore prior art related to data analysis devices, object detection systems, and field monitoring technologies to understand the evolution of similar innovations in the field.
Frequently Updated Research: Stay informed about the latest advancements in data analysis techniques, object detection algorithms, and field monitoring technologies to enhance the capabilities of the device and improve its performance over time.
Questions about the technology: 1. How does the device handle data fragmentation and connection in the adjacency range? The device allows users to adjust parameters to control how data fragments are connected within the adjacency range, providing flexibility in analyzing detection results.
2. What are the key advantages of using this data analysis device for object detection in fields? The device offers improved accuracy, customizable parameters, and enhanced visualization capabilities, making it a valuable tool for various applications requiring object detection and data analysis in fields.
Original Abstract Submitted
a data analysis device for controlling generation of at least one data string indicating a detection result of an object detected in time sequence in a field, including: a display to display information; an input interface to receive a user operation; and a processor to control a data controller that manages the detection result of the object to generate the data string. the processor causes the display to display display information including an adjacency range in which ends of a plurality of fragments of the data string are adjacent to each other in the field, receives, via the input interface, the user operation to adjust a parameter indicating a condition for the plurality of fragments of the data string to be connected to each other in the adjacency range, and controls the data controller to apply the adjusted parameter in the adjacency range according to the user operation on the input interface.