2004 
—M 
  
pin 
  
International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B4. Istanbul 2004 
  
overshoot, undershoot, pseudo node, intersection error, etc.) has 
been seen and data were ready to create topology in ArcInfo. 
Also output DGN file coming from Planicomp-P33 analytical 
plotter was imported in ArcView 3.1 directly using CADReader 
extension of ArcView (that extends ArcView to support 
viewing, querying and analyzing CAD drawings) All the 
polygon features were imported as polygon shapes that clearly 
shows there is no need for post-processing (i.e. removing 
dangles, extending undershoots, etc.) to make closed polygon 
objects. Linear objects also were imported to ArcView 
environment without any problem. 
  
  
  
  
  
  
  
  
  
  
  
  
  
  
Error Type Error Description IPCBS’s 
[Molkaraei, 1999] Correction 
Method 
Duplicate Objects that share the same | Puts error 
objects start and end points as well as | flag (user 
all other points (even if two | must confirm 
objects have different linear | for deleting 
directions) within the tolerance. | one of those) 
Short Any objects (not small texts | Doesn't let to 
objects and centroids) shorter than the | draw(or gives 
specified tolerance. warning) 
Crossing Objects that cross each other| Breaks those 
objects with no nodes at crossing. at their 
intersection. 
Undershoots | Objects that come within the | Extends 
and specified tolerance radius of | undershoots 
Overshoots | each other but do no meet | and snaps 
(Undershoot). overshoots; 
Objects that pass each other|generates a 
within the specified tolerance | new node at 
(Overshoot). intersection 1f 
there is no 
node. 
Clustered Any nodes within the specified | Snaps those 
nodes tolerance radius distance of|to centremost 
each other. node. 
Sliver One segment of one linear | Doesn't let to 
polygons feature is located near another, | occur (treats 
which they generate a small | those as same 
narrow virtual polygon. as duplicate 
objects) 
Polygon Polygon edges does not reach | Snaps two 
closure each other at their endpoints endpoints of 
[Neto, 2001] polygon. 
Pseudo Any nodes shared by only two | Dissolves 
nodes objects. pseudo nodes 
and joins two 
objects. 
Dangling Objects with at least one end | Doesn't let to 
objects point that is not shared by | draw (or puts 
another object. error flag). 
Complex Complex linear objects are | Doesn't let to 
linear objects those contain many | draw (or 
objects (line | interior vertices fall within the | sends a 
weeding) specified corridor tolerance. | warning 
(Branching points, dead ends, | message) 
and endpoints of polylines are 
not generalized.) 
  
  
Table 1. Cleanup errors and corresponding correction methods 
4.2 IPCBS's Efficiency 
For comparison between traditional photogrammetric 
procedures and using an integrated system like IPCBS, a real 
case is chosen. Tehran GIS Center (TGIC) has started to 
establish an urban Geographical Information System for Tehran 
metropolis the capital of IRAN. Main purpose of this project is 
managing Tehran municipality services and implementing the 
Master Plan of Tehran. For this purpose, during years 1993- 
1995, a project was scheduled and they started to prepare large- 
scale maps (1:2,000) of Tehran using photogrammetric method. 
This project was schedule according to existing traditional 
equipments. So, the main designed steps for producing maps 
were: 
Planning; 
Image reduction (Photogrammetry phase); 
Data editing (Editing for cartography and making data 
GIS-ready): 
4. GIS analyses. 
In image-reduction step, raw data were digitized using 
photogrammetric instruments while in data-editing step data 
were refined to become ready for cartographic or other 
purposes. These two steps were the main steps allocated 
themselves most of time and costs. 
Extracting and drawing of maps by using photogrammetric 
instruments started in 1995 and finished in 1997. Editing step 
was started at early of 1996 and finished in 1998. After this 
step, one project was defined which was called “Organizing of 
Maps”. The aim of this project was preparation data for 
importing to GIS environments, or making them “GIS-ready”. 
This phase started in 1998 and finished in 2001. After all, GIS 
analysis and using these data for several applications have 
started in 2001. : 
While if similar project is designed to be implemented in 
feature, we recommend using integrated systems like IPCBS, 
because 'data-editing' step and making 'GIS-Ready' step aren't 
necessary. This not only reduces the required time for map 
production, but also saves costs. Thus, in Tehran case, all of 
those five phases can be reduced to three phases and Editing for 
Cartography step and Making GIS-Ready step will not be 
necessary any more. This investigation shows the benefit of 
using integrated system (i.e. IPCBS) in saving time and cost. 
UJ h2 — 
5. CONCLUSIONS AND RECOMMENDATIONS 
5.1 Conclusion 
Photogrammetry introduces the fastest, cheapest and most 
accurate methods form gathering data, analyzing them and 
395 
making 3D models. In the other hand, CAD software has many 
utilities for viewing, maintaining and data editing (for example 
those offer us many viewports, perspective views, precise 
measuring of length and area and volume, etc.). Thus in many 
applications (e.g. industrial) , integrated systems have shown 
their necessities, especially where we may be oblige to prepare 
map or 3D model of some inaccessible objects, or where we are 
enforced to work in the hazardous environment and other 
techniques of data capturing (i.e. tachometry) are useless 
[Chapman et al, 1992]. 
In this research, due to advantages of integration of 
photogrammetric systems and CAD systems and in order to 
minimize the editing procedure before using data for CAD 
purposes or GIS applications, IPCBS (Integrated 
Photogrammtric CAD-Based System), a powerful On-line CAD 
Based Photogrammetric system were designed. [PCBS