The transmission of multi-scale digital map information via a wireless link of the personal digital assistant (PDA) system is investigated in this work. We consider a digital map representation of the vector model con...
详细信息
ISBN:
(纸本)0819429155
The transmission of multi-scale digital map information via a wireless link of the personal digital assistant (PDA) system is investigated in this work. We consider a digital map representation of the vector model consisting of 29 layers, in which the road layer plays the most important role. Based on the street segment length, the road layer is classified into different scales. A multi-scale map database can be constructed by adding the classification information without modifying the original database. Unlike the conventional digital map service, where the retrieved map data is first generated as a bitmap image, compressed at the server side and then transmitted to the remote client via wired link, we propose a new approach that can overcome the narrow bandwidth of the wireless channel. The basic idea is to transmit the map drawing commands rather than the rendered bitmap data by assuming that the PDA has the sufficient computational power to render the map at the client side. Preliminary experiments have been done to verify the effectiveness of the proposed scheme. It is demonstrated that the acceptable transmission through the wireless channel of 8Kbps can be achieved.
In the field of autonomous driving, the accuracy and real-time requirements for 3D object detection technology continue to improve, which is directly related to the commercialization process and market popularity of a...
详细信息
In the field of autonomous driving, the accuracy and real-time requirements for 3D object detection technology continue to improve, which is directly related to the commercialization process and market popularity of autonomous vehicles. Despite the efficiency of pillar-based coding for onboard systems, it falls short in terms of accuracy and the reduction of incorrect positives. In this paper, we will examine how to solve the problem of high incorrect rate and low accuracy of existing methods. Firstly, a map coding module is introduced to optimize previous point cloud feature coding modules, allowing for the efficient extraction of fine-grained features from point cloud data. Then, we introduce an innovative sparse dual attention (SDA) to efficiently filter out irrelevant details in feature extraction, thereby improving the pertinence and efficiency of information extraction. Finally, to address the potential loss of information from single local feature extraction, a local and global fusion module (CTGC) is introduced. Our method has proactively demonstrated its efficiency and accuracy through rigorous experimentation across diverse datasets. Analysis of the results leads to the conclusion that our solutions provide accurate and robust detection results. Code will be available at https://***/lcy199905/*** .
A new efficient compression scheme for bilevel images containing locally straight edges is presented. This paper is especially focused on lossless (intra) coding of binary shapes for image and video objects, but other...
详细信息
A new efficient compression scheme for bilevel images containing locally straight edges is presented. This paper is especially focused on lossless (intra) coding of binary shapes for image and video objects, but other images with similar characteristics such as line drawings, layers of digital maps, or segmentation maps are also encoded efficiently. The algorithm is not targeted at document images with text, which can be coded efficiently with dictionary-based techniques as in JBIG2. The scheme is based on a local analysis of the digital straightness of the causal part of the object boundary, which is used in the context definition for arithmetic encoding. Tested on individual images of standard TV resolution binary shapes and the binary layers of a digital map, the proposed algorithm outperforms PWC, JBIG, JBIG2, and MPEG-4 CAE. On the binary shapes, the code lengths are reduced by 21%, 27 %, 28 %, and 41 %, respectively. On the map layers, the reductions are 31 %, 34 %, 32 %, and 64 %, respectively. The algorithm is also more efficient on the test material than the state-of-the-art generic bilevel image coder free tree.
暂无评论