A Practical Perspective on Building Identification from Low-Resolution Mobile Images

A Practical Perspective on Building Identification from Low-Resolution Mobile Images

Wanji Mai, Chris Tweed, Peter Hung, Seán McLoone, Ronan Farrell
Copyright: © 2009 |Pages: 18
DOI: 10.4018/978-1-60566-046-2.ch024
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In this chapter, the idea of identification of outdoor buildings using mobile devices is presented. The prototype system involves integration of various hardware devices and a building identification application using sensor fusion. The goal is to allow real-time interaction with clients and provide ‘location-based’ information about the building after identification. Clients, such as a PDA, can wirelessly connect to a server that handles building identification requests. It consists of a GIS server, an application for communication with clients, an image database used to identify the building and a ‘location-based’ image processing application. The data collected include a captured image of the object concerned as well as the corresponding GPS positioning and orientation data. Several different image processing techniques are employed to study the different features of an image, including the colour structure, roof shape as well as building textures. Promising experimental results are presented showing both the individual feature matching and overall matching performance.
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With the increased availability and advanced features of low-cost, portable and mobile devices, there is the potential to develop a wide range of applications (Banerjee, Agarwal, Kamel, Kochut, Kommareddy, Nadeem, Thakkar, Trinh, Youssef, Youssef, Larsen, Udaya Shankar & Agrawala, 2002; Caceres, Donham, Fitterman, Joerg, Smith & Vetter, 2002). As technologies advance, the combination of mobile computational, imaging and satellite positioning, as well as internet access capabilities, opens the door to a variety of novel applications, such as pedestrian navigation aids, mobile information systems, electronic tourist guidance and other applications commonly referred to as ‘location awareness services’ (Böhm, Haala & Kapusy, 2002).

Most of the previous research in this area has been concerned with ‘location-based services.’ This chapter presents a ‘location and image-based service’ that delivers information about a specific building of interest in almost real-time to a mobile user through the Internet by identifying the building from a user-supplied image. Similar ideas have been mentioned in (Fritsch, Klinec & Volz, 2000; Klinec & Volz, 2000), which use still video camera images along with image interpretation and object extraction to locate the position and enable the user to navigate indoors. However, in this chapter, object recognition is applied to outdoor city navigation. Chevallet, Lim and Leong (2007) use images taken from mobile phones and an image database to identify tourist objects based on colour histogram matching. Recently, scale invariant feature transformation (SIFT) has become a popular technique in building identification (Paletta, Fritz, Seifert, Luley, & Almer, 2006; Zhang & Kosecka, 2005). However, they require training using a database with appropriate amounts of viewpoint changes, for example, ≈30° (Paletta et al., 2006), on the same building for accurate identification. The proposed approach does not have this restriction. Another project described by Böhm et al. (2002) improves the accuracy of global positioning systems (GPS) by combining GPS data with orientation and image data and employing the Hough transform. The hardware employed in this chapter is similar to Böhm et al. (2002) except that the system is mobile and portable, and the processing is carried out in real-time. Moreover, this research seeks to exploit the capabilities of a mobile device, namely the personal digital assistant (PDA), and its imaging functions for building identification. While it is recognized that more advanced mobile devices, such as Smartphone, are now available on the market, technologies can easily be adopted to other mobile platforms for improved usability and different applications.

As an example application, city visitors sometimes find problems in understanding tourist maps or guidebooks. In fact, surveys of pedestrians in University Square, Belfast found that a significant proportion (12% of males, 24% of females) had difficulty in locating themselves on a printed map (Sutherland, Tweed, Teller & Wedebrunn, 2002). The system presented here can potentially increase the location-awareness of visitors by identifying their locations and getting information about urban objects using user-captured images from PDAs.

Key Terms in this Chapter

Global Positioning System: A global location system that utilises signals transmitted from a constellation of navigation systems to enable receivers to determines its location and time.

Location-Based Services: Services that involves location-specific information provided to mobile users.

Hough Transform: A feature extraction technique that is concerned with the identification of lines and locations in an image.

Building Identification: Computational analysis that identifies the building or construction from given data, such as images taken and GPS location information.

Gabor Filter: A linear filter that is usually used for texture and segmentation problems.

Image Processing: Visual information processing and analysis on image, video, and so forth.

Geographical Information System: A system for capturing, analysing, displaying, storing spatial information about the Earth.

Personal Digital Assistant: A handheld computer that is small enough to carry around in pockets and perform certain functions of a computer and usually acts as an electronic diary.

CannyDetector: A multi-stage algorithm used for detecting edges in images.

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