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GEOMETRIC INFORMATION FROM SINGLE UNCALIBRATED IMAGES OF ROADS 
L. Grammatikopoulos *, G.E. Karras *, E. Petsa " 
* Department of Surveying, National Technical University of Athens, GR-15780 Athens, Greece (gkarras@central.ntua.gr) 
? Department of Surveying, Technological Educational Institute of Athens, GR-12210 Athens, Greece (petsa@teiath.gr) 
KEY WORDS: Projective, Geometry, Calibration, Video, Sequences 
ABSTRACT 
Video sequences of road and traffic scenes are now used for various purposes. The framework of this research on the metric potential 
of single uncalibrated images is road mapping and studies of the traffic character of freeways. In the first case, an approach has been 
developed to extract lane width in straight road segments exploiting sequences from a forward looking camera. Apart from an initial 
reference width, necessary for calibrating camera height, no intrinsic or extrinsic calibration is required if frontal image acquisition is 
assumed. This approach, making use of the vanishing point of the road, gave an accuracy better than 5 cm in lane width. The second 
technique regards the measurement of vehicle speed, given the time interval between frames of a stationary camera tilted downwards. 
Here, too, the vanishing point in the direction of the road is used, with the vanishing point of the orthogonal direction assumed at 
infinity. Given one known ground distance along the road axis, the projective distortion of the ground plane is removed, allowing an 
affine rectification and, thus, 1D measurement in the correctly scaled road direction. This approach, evaluated against rigorous 2D-2D 
projective transformation and GPS measurements, has given a satisfactory estimated accuracy in vehicle speed of about 3 km/h. 
1. INTRODUCTION 
Video sequences of roads are increasingly used in various con- 
texts. For instance, preserving road network operability is today 
a basic consideration, mainly focusing on road safety. Road re- 
cording and mapping systems are needed to provide the missing 
data, chiefly as regards older roads constructed and maintained 
under various jurisdictions. Indeed, several mobile mapping and 
video-logging systems have been reported (Tao and El-Sheimy, 
2000). The former integrate multiple sensors with one, or more, 
cameras providing geo-referenced image sequences and are cap- 
able for precise 3D measurement. Video-logging systems, on the 
other hand, are typically based on a single camera. Hence no 3D 
measurement is generally possible in these cases, unless certain 
geometric constraints are adopted (Tao, 2001). Most important 
among them is the ‘flat-earth’ model. 
The potential of automatic single-image approaches, relying on 
different geometric assumptions, is being currently investigated 
in the computer vision literature for various purposes. Probably 
the main task here is the development of driver-assistance tools 
or even autonomous road following. In this context, algorithms 
have been presented for automatic lane and obstacle detection 
(Bertozzi & Broggi, 1997, Enkelmann, 2001), the estimation of 
lane shape and a vehicle’s road position or ‘ego-motion’ (Stein 
et al., 2000; Southall & Taylor, 2001). Assuming constant road 
width, Guiducci (1998) has reported on an algorithm for the 3D 
road reconstruction from its image boundaries. 
Of course, besides such ‘on-board’ approaches, video sequences 
from a stationary camera are also used, e.g. with the application 
of image processing and vision algorithms to traffic scenes for 
queue detection and vehicle classification or counting (Dailey et 
al., 2000). In particular, ordinary video cameras present certain 
advantages over other techniques for monitoring vehicle speed, 
e.g. with object tracking (Chun & Li, 2000), which represents a 
crucial parameter in studying the traffic character of freeways. 
Most monoscopic methods cited above are characterised by the 
employment of cameras with known interior orientation (‘intrin- 
sic camera’) parameters. Several camera calibration methods are 
available, while approaches have also been proposed which use 
the road itself as the calibration structure (Guiducci, 2000). But, 
wherever possible, the potential of uncalibrated cameras should 
be exhausted within flexible, low-cost approaches. For obvious 
reasons, the exterior information required should also be kept to 
a minimum to bypass the need for either point correspondences 
and targets, or additional sensors providing camera attitude. In 
speed measurement, for instance, the state-of-the-art in camera 
technology adopted by transportation agencies requires detailed 
intrinsic and extrinsic calibration of expensive cameras, and few 
efforts have been made to measure speed using sequences of un- 
calibrated images (Dailey et al., 2000; Pumrin & Dailey, 2002). 
In this contribution approaches are presented and evaluated for 
measuring two types of quantities with single image techniques: 
lane width; and vehicle speed which, with known time intervals 
between frames, is obviously a problem of measuring distances. 
The video cameras used here are uncalibrated, in the sense that 
camera constant, principal point location and the image affinity 
parameters are irrelevant (radial lens distortion is not taken into 
account). Regarding exterior orientation, following ‘reasonable’ 
assumptions are made here: the ground in front of the camera is 
planar; cameras are fixed to the ground or the vehicle; images 
have negligible rotations about the vertical and camera axes (cf. 
Tao, 2001). Considering exclusively straight road segments, the 
only requirements for the 2D-2D image-to-road transformations 
in both cases (measurement of lane width and vehicle speed) are 
one known distance. It is currently under investigation how the 
approaches may be extended to include curving road segments 
or significant rotations about the vertical camera axis. 
Numerical results presented in the existing literature as evalua- 
tions of algorithms measuring lane width and vehicle speed are 
indeed sparse. Thus, aim of this contribution was to present the 
mathematical models as well as to assess their performance with 
sufficient measurements. No automatic extraction technique has 
been applied here. These can be found in the existing literature, 
though even relatively straightforward tasks, such as lane track- 
ing, may well prove unexpectedly difficult due to changing road 
and weather conditions (Southall & Taylor, 2001). 
2. MEASUREMENT OF LANE WIDTH 
To effectively manage existing road networks as regards opera- 
bility and safety, sufficient information about their design para- 
meters and installed equipment is needed; this concerns prima- 
rily older roads for which there is a considerable lack of data. A 
cost-effective road surveying system, designed at the Technical 
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