Your search keyword '"Mahdjoubi, L."' showing total 9 results

1. EXTENDING INDOOR OPEN STREET MAPPING ENVIRONMENTS TO NAVIGABLE 3D CITYGML BUILDING MODELS: EMERGENCY RESPONSE ASSESSMENT.

Author

Fadli, F., Kutty, N., Wang, Z., Zlatanova, S., Mahdjoubi, L., Boguslawski, P., and Zverovich, V.

Subjects

EMERGENCY management, GEODATABASES, COMPUTER-aided design

Abstract

Disaster scenarios in high-rise buildings such as the Address Downtown, Dubai or Grenfell Tower, London have showed ones again the importance of data information availability for emergency management in buildings. 3D visualization of indoor routing services using extensive and high quality geographic data sources is essential for spatial analysis in emergency responses. In order to facilitate emergency response simulations, a combination of geometrical, graphical and semantic information is essential. Successful and efficient emergency evacuation responses is facilitated by the availability of both digital static and dynamic information of the incident site. However, interruptions may be encountered with the availability of dynamic data, where static data developed using indoor navigation ontologies serve as an alternative to inform the first responders. Thus, it is necessary to obtain a firm, interactive and quasi-realistic virtual simulation of the building environments. Voxelized CityGML models imported into voxel based hazard simulation systems fits well into the simulation algorithm requirements (Groger et al., 2008; Moreno et.al, 2010). Therefore, the research investigates an alternative platform for generating CityGML spatial analysis models. LoD4 models are developed using Computer Aided Design (Auto CAD) 2D files, crowdsourced geo-data (OpenStreetMap) and open source tools. A combination of software packages is utilized for 3D reconstruction of building interiors. This process is achieved through a Java application developed by researchers at Heidelberg University. Conclusions drawn from the research validate the 3D CityGML model generation process as an international standard to effectively enhance the outcome of emergency evacuation simulations of high rise buildings. [ABSTRACT FROM AUTHOR]

Published

2018

2. EXTENDING INDOOR OPEN STREET MAPPING ENVIRONMENTS TO NAVIGABLE 3D CITYGML BUILDING MODELS: EMERGENCY RESPONSE ASSESSMENT.

Author

Fadli, F., Kutty, N., Wang, Z., Zlatanova, S., Mahdjoubi, L., Boguslawski, P., and Zverovich, V.

Subjects

BUILDING information modeling, GEOSPATIAL data, EMERGENCY management

Abstract

Disaster scenarios in high-rise buildings such as the Address Downtown, Dubai or Grenfell Tower, London have showed ones again the importance of data information availability for emergency management in buildings. 3D visualization of indoor routing services using extensive and high quality geographic data sources is essential for spatial analysis in emergency responses. In order to facilitate emergency response simulations, a combination of geometrical, graphical and semantic information is essential. Successful and efficient emergency evacuation responses is facilitated by the availability of both digital static and dynamic information of the incident site. However, interruptions may be encountered with the availability of dynamic data, where static data developed using indoor navigation ontologies serve as an alternative to inform the first responders. Thus, it is necessary to obtain a firm, interactive and quasirealistic virtual simulation of the building environments. Voxelized CityGML models imported into voxel based hazard simulation systems fits well into the simulation algorithm requirements (Groger et al., 2008; Moreno et.al, 2010). Therefore, the research investigates an alternative platform for generating CityGML spatial analysis models. LoD4 models are developed using Computer Aided Design (Auto CAD) 2D files, crowdsourced geo-data (OpenStreetMap) and open source tools. A combination of software packages is utilized for 3D reconstruction of building interiors. This process is achieved through a Java application developed by researchers at Heidelberg University. Conclusions drawn from the research validate the 3D CityGML model generation process as an international standard to effectively enhance the outcome of emergency evacuation simulations of high rise buildings. [ABSTRACT FROM AUTHOR]

Published

2018

3. Analytic Prioritization of Indoor Routes for Search and Rescue Operations in Hazardous Environments.

Author

Zverovich, V., Mahdjoubi, L., Boguslawski, P., and Fadli, F.

Subjects

RESCUE work, HAZARDOUS occupations, SEARCH & rescue operations, ANALYTIC hierarchy process, ALGORITHMS

Abstract

Applications to prioritize indoor routes for emergency situations in a complex built facility have been restricted to building simulations and network approaches. These types of applications often failed to account for the complexity and trade-offs needed to select the optimal indoor path during an emergency situation. In this article, we propose a step change for finding the optimal routes for Search And Rescue (SAR) teams in a building, where a multi-epicenter extreme event is occurring. We have developed an algorithm that is based on a novel approach integrating the Analytic Hierarchy Process (AHP), statistical characteristics, the propagation of hazard, Duckham-Kulik's adapted algorithm, Dijkstra's classical algorithm, and the binary search with three criteria: hazard proximity, distance/travel time, and route complexity. The sub-criteria for the route complexity are validated in the context of SAR using a real-life building (Doha World Trade Centre). The important feature of the algorithm is its ability to generate an optimal route depending on user's needs. The findings revealed that the generated optimal routes are indeed the 'best' trade-off among distance/travel time, hazard proximity, and route complexity. The test results also demonstrated the robustness of the algorithm with respect to different parameters, and its insensitivity to different scenarios of uncontrolled evacuation. [ABSTRACT FROM AUTHOR]

Published

2017

4. Emergency Response in Complex Buildings: Automated Selection of Safest and Balanced Routes.

Author

Zverovich, V., Mahdjoubi, L., Boguslawski, P., Fadli, F., and Barki, H.

Subjects

EMERGENCY management, NATURAL disasters, ALGORITHMS, BUILDING evacuation, THREE-dimensional imaging in architecture

Abstract

The extreme importance of emergency response in complex buildings during natural and human-induced disasters has been widely acknowledged. In particular, there is a need for efficient algorithms for finding safest evacuation routes, which would take into account the 3-D structure of buildings, their relevant semantics, and the nature and shape of hazards. In this article, we propose algorithms for safest routes and balanced routes in buildings, where an extreme event with many epicenters is occurring. In a balanced route, a trade-off between route length and hazard proximity is made. The algorithms are based on a novel approach that integrates a multiattribute decision-making technique, Dijkstra's classical algorithm and the introduced hazard proximity numbers, hazard propagation coefficient and proximity index for a route. [ABSTRACT FROM AUTHOR]

Published

2016

5. INDOOR NAVIGATION FROM POINT CLOUDS: 3D MODELLING AND OBSTACLE DETECTION.

Author

Díaz-Vilariño, L., Boguslawski, P., Khoshelham, K., Lorenzo, H., and Mahdjoubi, L.

Subjects

PEOPLE with disabilities, CRISIS management, FIRE prevention, DWELLINGS

Abstract

In the recent years, indoor modelling and navigation has become a research of interest because many stakeholders require navigation assistance in various application scenarios. The navigational assistance for blind or wheelchair people, building crisis management such as fire protection, augmented reality for gaming, tourism or training emergency assistance units are just some of the direct applications of indoor modelling and navigation. Navigational information is traditionally extracted from 2D drawings or layouts. Real state of indoors, including opening position and geometry for both windows and doors, and the presence of obstacles is commonly ignored. In this work, a real indoor-path planning methodology based on 3D point clouds is developed. The value and originality of the approach consist on considering point clouds not only for reconstructing semantically-rich 3D indoor models, but also for detecting potential obstacles in the route planning and using these for readapting the routes according to the real state of the indoor depictured by the laser scanner. [ABSTRACT FROM AUTHOR]

Published

2016

6. TWO-GRAPH BUILDING INTERIOR REPRESENTATION FOR EMERGENCY RESPONSE APPLICATIONS.

Author

Boguslawski, P., Mahdjoubi, L., Zverovich, V., and Fadli, F.

Subjects

EMERGENCY management, RESCUE work, HEAT transfer, MANAGEMENT

Abstract

Nowadays, in a rapidly developing urban environment with bigger and higher public buildings, disasters causing emergency situations and casualties are unavoidable. Preparedness and quick response are crucial issues saving human lives. Available information about an emergency scene, such as a building structure, helps for decision making and organizing rescue operations. Models supporting decision-making should be available in real, or near-real, time. Thus, good quality models that allow implementation of automated methods are highly desirable. This paper presents details of the recently developed method for automated generation of variable density navigable networks in a 3D indoor environment, including a full 3D topological model, which may be used not only for standard navigation but also for finding safe routes and simulating hazard and phenomena associated with disasters such as fire spread and heat transfer. [ABSTRACT FROM AUTHOR]

Published

2016

7. Characterization of in-situ Doped Polycrystalline Silicon Using Schottky Diodes and Admittance Spectroscopy.

Author

Ayed, H., Béchir, L., Benabdesslem, M., Benslim, N., Mahdjoubi, L., Mohammed-Brahim, T., Hafdallah, A., and Aida, M. S.

Subjects

POLYCRYSTALLINE silicon, SCHOTTKY barrier diodes, ELECTRIC admittance, ELECTRIC capacity, SPECTRUM analysis, AMORPHOUS silicon

Abstract

In this work, Schottky Au-Polycrystalline silicon diodes are successfully realised. The barrier height is around ФB  0.74 eV as determined from Capacitance - Bias (C-V) characteristics. The depth profile of the apparent doping is deduced from these measurements. Its behaviour leads to the experimental profile. Moreover, the diode admittance measurements versus the frequency and the temperature at different biases show the possibility to use this device to characterise the electrical quality of the polycrystalline silicon. [ABSTRACT FROM AUTHOR]

Published

2016

8. An intelligent materials routing system on complex construction sites.

Author

Mahdjoubi, L. and Yang, J.L.

Abstract

Describes the design and implementation of a software system, called Virtual Construction Material Router (VCMR). The software provides a decision-support system for materials movement in complex construction sites. It consists of integrated software systems, composed of computer-aided design, geographical information systems and fuzzy logic. Makes transparent the interrelationship between these applications to the user. This application enables site managers and planners to make strategic decisions about the movement of materials within a site. It allows the rehearsal, through simulation, of possible scenarios in order to select the best available route. Suggests that this tool will allow scenario planning in order to enable faster and more informed responses to unforeseen circumstances on site. Describes the computational architectures and conceptual basis of the major components in VCMR. [ABSTRACT FROM AUTHOR]

Published

2001

9. Structural and optical properties of CuInxGa1−xSe2 thin films prepared by flash evaporation.

Author

Benslim, N., Cowache, P., Hannech, E. B., Benabdeslem, M., Béchiri, L., and Mahdjoubi, L.

Published

2002