Integrated information processing system for geospatial media

Abstract

An integrated information processing system for geospatial information processing. The information processing system includes a scheduling module, an acquisition module, a production module, a distribution module, a geospatial data specification, and a geospatial media recorder. Each module incorporates a common object database management system. The scheduling module is configured for processing requests for media acquisition. The acquisition module is configured for acquiring visual, audio, textual, and geospatial entity information. The production module is configured for producing integrated digital media datasets and information. The distribution module is configured for distributing integrated digital media datasets and information. The geospatial data specification includes an object class which serves to provide geospatial referencing of an entity or object. The concatenated data attribute of geospatial data serves to geospatially reference entities or object in a video segment. The geospatial media recorder serves to encode geospatial data onto video frames at the time of video acquisition.

Description

CROSS-REFERENCE TO RELATED APPLICATION [0001] This application is a continuation of U.S. patent application Ser. No. 10 / 691,544, filed on Oct. 24, 2003, which is a continuation of U.S. patent application Ser. No. 09 / 626,801, filed on Jul. 26, 2000, and claims the benefit of U.S. Provisional Patent Application No. 60 / 145,694, filed on Jul. 26, 1999. The subject matter of these previously filed applications is hereby incorporated by reference.BACKGROUND OF THE INVENTION [0002] 1. Field of the Invention [0003] The present invention relates generally to media information processing systems and, more particularly, to an integrated system of specialized equipment modules for media information processing. [0004] 2. Description of the Related Art [0005] The United States Census Bureau TIGER / Line™ files are a computer readable geographic database for the United States. The original sources of the database include U.S. geological survey maps, the 1980 U.S. Census Bureau DIME files, and variou...

AI Technical Summary

Benefits of technology

[0043] It is an object of the invention to provide improved elements and arrangements thereof in an apparatus for the purposes described which is inexpensive, dependable and fully effective in accomplishing its intended purposes.

Problems solved by technology

While these geographic files are usable as a base for a geographic information system, they are not recommended for detailed applications which require a high degree of positional accuracy.

This is because the positional accuracy of the information contained in the file is limited by the scale of the U.S. Geological Survey maps from which the files are created.

In addition, information in the TIGER / Line™ files is only as complete and accurate as the source documents used by the U.S. Census Bureau and errors often occur in compilation and translation of information from source documents.

While the Global Positioning System can provide accurate spatial position information, problems arise when the GPS receiver is not able to receive information from at least four orbiting satellites.

This occurs when the GPS receiver is obstructed by geographic features such as canyons or bluffs as well as man-made structures.

Problems also arise when a signal transmitted by an orbiting satellite is reflected from a nearby object, giving the GPS receiver one or more incorrect readings from that satellite.

A further problem with the use of the Global Positioning System to provide spatial position information is that spatial position readings are often provided by the GPS receiver at a relatively slow rate; this depends on the quality of the receiver.

However, the apparatus does not describe specific methods for acquiring the information residing in the database or the manner in which the information will be related.

However, Lachinski et al. fails to capture geospatial and video dimensionalities within an image at the time of creation.

Moreover, Lachinski et al. fails to provide adequate functionalities necessary for efficient data processing.

However, the system only provides information to a single computer network and is not developed for convergent delivery of various media data types and data sets to a variety of digital delivery networks.

The drawback of this service is that the service fails to calculate the data capacity required for providing video over a data network.

Another drawback is that the lengths of the video segments are not identified and, therefore, an unknown capacity of the network must be designed.

Moreover, the service only provides information to one class of user and to a single computer network.

A drawback of this service is that it provides information to one class of user.

The information is also only provided to computer networks and is not developed for convergent delivery of various media data types and datasets to varying digital delivery networks.

This level of geographic detail is insufficient to provide detailed geospatial information on media properties and suffers deficiencies that include lack of dimensionality and timestamping.

The network capacity cannot be accurately determined because of the different size videos that will be accessed over the network.

The system described does not provide information to networks for broadcasting or cablecasting and is not developed for convergent delivery of various media data types and datasets to varying digital delivery networks.

The system does not have a distributed delivery capability or geospatially referenced derived entities.

The system does not provide information for broadcasting or cablecasting and the system is not developed for convergent delivery of various media types and datasets.

As such, this system does not include temporal parameters and therefore suffers the same deficiencies as U.S. Pat. No. 5,953,722.

This level of geographic detail is insufficient to provide detailed geospatial information on entities and suffers deficiencies that includes lack of dimensionality and timestamping.

The lack of geographic positioning, dimensionality, and timestamping does not provide the requisite data for geospatial media management.

This level of geographic detail is insufficient to provide detailed geospatial information on media entities and suffers deficiencies that include lack of dimensionality and timestamping.

This level of geographic detail is insufficient to provide detailed geospatial information on media entities and suffers deficiencies that include lack of dimensionality and timestamping.

This level of geographic detail is insufficient to provide detailed geospatial information on media entities and suffers deficiencies that include lack of dimensionality, altitude referencing and timestamping.

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