HOUSEDIFF: A MAP-BASED BUILDING CHANGE DETECTION 
FROM HIGH RESOLUTION SATELLITE IMAGERY 
USING GEOMETRIC OPTIMIZATION METHOD 
N. Ishimaru ^ *, K. Iwamura?, Y. Kagawa?, T. Hino" 
* Hitachi, Ltd., 1-18-13, Soto-Kanda, Chiyoda-ku, Tokyo, Japan 
— (nobuhiro.ishimaru.yu, kazuaki.iwamura.wx)@hitachi.com 
? Hitachi Solutions, Ltd., 4-12-7, Higashishinagawa, Shinagawa-ku, Tokyo, Japan 
— (yoshiaki.kagawa.yy, takashi.hino.ea)@hitachi-solutions.com 
KEY WORDS: Change Detection, Updating, Building, Urban, High resolution, Quickbird 
ABSTRACT: 
This paper presents a novel structural image analysis method based on geometric optimization techniques towards automatic 
building change detection. The aim of this method is to efficiently detect the changes of various buildings such as small houses and 
houses with complex roof in an urban area from high resolution satellite imagery by comparing with spatial database (maps). The 
previous research has indicated of the effectiveness of a map-based building change detection approach, and further investigation 
suggests the following three problems; (1) the large diversity of building types, roof shape, roof materials, illumination condition 
and shadow, (2) the difficulty of imagery and maps matching which normally leads to considerable position error, (3) the capacity 
of extracting various types of newly-built buildings. To solve these problems, we propose a new geometric optimization method 
which consists of the following two steps; (1) the building recognition based on a combinatorial optimization method for optimal 
building boundary extraction, (2) the newly-built building extraction based on an optimal building hypothesis search method. The 
experimental results showed that the detection rate was approximately 89% for existing and changed buildings, and approximately 
83% for newly-built buildings. These results demonstrate the effectiveness of the proposed geometric optimization methods to 
integrate bottom-up and top-down analysis. By combining the locally detected image features with consideration of regional 
contexts from map, our method can achieve highly accurate building change detection in urban area. The method has been applied 
to a building change detection service named "HouseDiff" and succeeded in assisting users. 
1. INTRODUCTION buildings with dark flat roof to the complex buildings with 
various types of roof shape, roof materials, illumination 
Timely and precise update and maintenance of spatial database condition and shadow. Second is the difficulty of imagery and 
has been a challenge for the practical GIS applications such as maps matching which normally leads to considerable position 
land use management and disaster management. As shown in error especially in the case of using simplified map. Third is 
advanced examples of QuickBird, WorldView-1, and the capacity of extracting various types of newly-built buildings. 
WorldView-2 from DigitalGlobe, the recent development of ^ To solve these problems and improve the recognition accuracy, 
high resolution satellite in image accuracy and coverage, and we propose a new geometric optimization method which 
short observation repetition makes it an ideal data source for consists of the following two steps. The first step is the 
the purpose of automatic building change detection. building recognition based on a combinatorial optimization 
method for optimal building boundary extraction so as to solve 
This paper presents a novel structural image analysis method the first and second problems. The second step is the newly- 
  
based on geometric optimization techniques towards automatic 
building change detection. The aim of this method is to 
efficiently detect the changes of various buildings such as 
small houses and houses with complex roof in an urban area 
from high resolution satellite imagery by comparing with 
spatial database (maps). Several different approaches have 
been proposed for building change detection as well as map 
feature extraction, such as feature-based (Kazama et al, 2010; 
Guo et al, 2010), rule-based (Ishimaru et al, 2005), model- 
based (Fisher et al, 1998; Huertas et al, 1998), and map-based 
(Ogawa et al, 1999). The previous research, map-based 
approach, has indicated of the effectiveness of top-down 
(model-driven) image analysis approach using map polygons as 
building models. The simulated high resolution satellite 
imagery was applied in the research, and our further 
investigation using the actual high resolution satellite imagery 
suggests the following three problems. First is the large 
diversity of building types which range from the simple 
built building extraction based on an optimal building 
hypothesis search method to solve the first and third problems. 
Figure 1 shows an overall framework of a map-based building 
change detection algorithm. 
Extended from 
the pre 
     
previous method 
ding recogni Inask image building extraction 
Sauer Existing //Newly-built 
(emolishe 2 building building 
need to re-examine) 
Map database Building change detection database 
Figure 1. Framework of a map-based building change 
detection algorithm 
  
      
   
   
      
  
  
  
Satellite image 
metadata (sun 
azimuth, etc) 
Maps 
(building, 
  
  
  
  
  
     
    
        
  
  
  
  
       
  
      
  
   
70 
By 
auto 
"cha 
buil 
char 
"Ho 
imag 
redu 
The 
exte 
are, 
new 
prov 
of th 
a Col 
The 
the 1 
old : 
eval 
bour 
utili: 
We | 
opti 
segn 
kno 
calc 
of e 
imag 
shor 
infor 
edge 
alloy 
and 
posi 
brig] 
04: