Abstract
Vector geographic data play an important role in location information services. Digital watermarking has been widely used in protecting vector geographic data from being easily duplicated by digital forensics. Because the production and application of vector geographic data refer to many units and departments, the demand for multiple watermarking technology is increasing. However, multiple watermarking algorithm for vector geographic data draw less attention, and there are many urgent problems to be solved. Therefore, an efficient robust multiple watermark algorithm for vector geographic data is proposed in this paper. The coordinates in vector geographic data are first randomly divided into non-repetitive sets. The multiple watermarks are then embedded into the different sets. In watermark detection correlation, the Lindeberg theory is used to build a detection model and to confirm the detection threshold. Finally, experiments are made in order to demonstrate the detection algorithm, and to test its robustness against common attacks, especially against cropping attacks. The experimental results show that the proposed algorithm is robust against the deletion of vertices, addition of vertices, compression, and cropping attacks. Moreover, the proposed detection algorithm is compatible with single watermarking detection algorithms, and it has good performance in terms of detection efficiency.
Highlights
Vector geographic data are very important basic and strategic national information resources, which play a significant role in fields referring to location information
To verify the performance of the algorithm, the proposed multiple watermarking algorithm was realized by using VC++ 6.0, and the shapefile format data were used for the experiments
In order to evaluate the robustness of the proposed multiple watermarking algorithm, experiments were performed on different digital vector geographic maps in a shapefile format
Summary
Vector geographic data are very important basic and strategic national information resources, which play a significant role in fields referring to location information. The safety of vector geographic data is closed in terms of public and individual security. With the advent of the informational era, it has become much easier to acquire, transmit, and distribute vector geographic data. The protection demands of multiple users and multi-copyright for vector geographic data that are caused by multi-level transmission are becoming increasingly urgent. It is currently necessary to focus on how to effectively protect the multi-copyrights of vector geographic data and how to track multiple users. It can be used to protect the copyrights of multiple users, and to track the copying flow of data in the progress of multi-level transmission
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