FPGA technology for implementation in visual sensor networks

W.C. Chia, W.H. Ngau, L.-M. Ang, K.P. Seng, L.W. Chew, L.S. Yeong

    Research output: Book chapter/Published conference paperChapter (peer-reviewed)peer-review

    Abstract

    A typical configuration of Visual Sensor Network (VSN) usually consists of a set of vision nodes, network motes, and a base station. The vision node is used to capture image data and transmit them to the nearest network mote. Then, the network motes will relay the data within the network until it reaches the base station. Since the vision node is usually small in size and battery-powered, it restricts the resources that can be incorporated onto it. In this chapter, a Field Programmable Gate Array (FPGA) implementation of a low-complexity and strip-based Microprocessor without Interlocked Pipeline Stage (MIPS) architecture is presented. In this case, the image data captured by the vision node is processed in a strip-by-strip manner to reduce the local memory requirement. This allows an image with higher resolution to be captured and processed with the limited resources. In addition, parallel access to the neighbourhood image data is incorporated to improve the accessing speed. Finally, the performance of visual saliency in using the proposed architecture is evaluated.
    Original languageEnglish
    Title of host publicationVisual Information processing in wireless sensor networks
    Subtitle of host publicationTechnology, trends, and applications
    EditorsLi-Minn Ang, Kah Phooi Seng
    Place of PublicationHershey, PA
    PublisherIGI Global
    Chapter14
    Pages 293-324
    Number of pages32
    Edition1st
    ISBN (Electronic)9781613501542
    ISBN (Print)9781613501535, 1613501544
    DOIs
    Publication statusPublished - 2012

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