Your search keyword '"Alhasoun, Fahad"' showing total 15 results

1. Probabilistic Programming Bots in Intuitive Physics Game Play

Author

Alhasoun, Fahad, Alnegheimish, Sarah, and Tenenbaum, Joshua

Subjects

Computer Science - Artificial Intelligence, Statistics - Machine Learning

Abstract

Recent findings suggest that humans deploy cognitive mechanism of physics simulation engines to simulate the physics of objects. We propose a framework for bots to deploy probabilistic programming tools for interacting with intuitive physics environments. The framework employs a physics simulation in a probabilistic way to infer about moves performed by an agent in a setting governed by Newtonian laws of motion. However, methods of probabilistic programs can be slow in such setting due to their need to generate many samples. We complement the model with a model-free approach to aid the sampling procedures in becoming more efficient through learning from experience during game playing. We present an approach where combining model-free approaches (a convolutional neural network in our model) and model-based approaches (probabilistic physics simulation) is able to achieve what neither could alone. This way the model outperforms an all model-free or all model-based approach. We discuss a case study showing empirical results of the performance of the model on the game of Flappy Bird., Comment: Shorter version to appear in AAAI-21

Published

2021

2. Urban attractors: Discovering patterns in regions of attraction in cities.

Author

Alhazzani, May, Alhasoun, Fahad, Alawwad, Zeyad, and González, Marta

Subjects

Algorithms, Cities, Cluster Analysis, Commerce, Humans, Models, Theoretical, Population Dynamics, Saudi Arabia, Transportation, Travel, Urban Population

Abstract

Understanding the dynamics by which urban areas attract visitors is important in todays cities that are continuously increasing in population towards higher densities. Identifying services that relate to highly attractive districts is useful to make policies regarding the placement of such places. Thus, we present a framework for classifying districts in cities by their attractiveness to daily commuters and relating Points of Interests (POIs) types to districts attraction patterns. We used Origin-Destination matrices (ODs) mined from cell phone data that capture the flow of trips between each pair of places in Riyadh, Saudi Arabia. We define the attraction profile for a place based on three main statistical features: The number of visitors a place received, the distribution of distance traveled by visitors on the road network, and the spatial spread of locations from where trips started. We used a hierarchical clustering algorithm to classify all places in the city by their features of attraction. We discovered three main types of Urban Attractors in Riyadh during the morning period: Global, which are significant places in the city, Downtown, which contains the central business district, and Residential attractors. In addition, we uncovered what makes districts possess certain attraction patterns. We used a statistical significance testing approach to quantify the relationship between Points of Interests (POIs) types (services) and the patterns of Urban Attractors detected.

Published

2021

3. Streetify: Using Street View Imagery And Deep Learning For Urban Streets Development

Author

Alhasoun, Fahad and Gonzalez, Marta

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

The classification of streets on road networks has been focused on the vehicular transportational features of streets such as arterials, major roads, minor roads and so forth based on their transportational use. City authorities on the other hand have been shifting to more urban inclusive planning of streets, encompassing the side use of a street combined with the transportational features of a street. In such classification schemes, streets are labeled for example as commercial throughway, residential neighborhood, park etc. This modern approach to urban planning has been adopted by major cities such as the city of San Francisco, the states of Florida and Pennsylvania among many others. Currently, the process of labeling streets according to their contexts is manual and hence is tedious and time consuming. In this paper, we propose an approach to collect and label imagery data then deploy advancements in computer vision towards modern urban planning. We collect and label street imagery then train deep convolutional neural networks (CNN) to perform the classification of street context. We show that CNN models can perform well achieving accuracies in the 81% to 87%, we then visualize samples from the embedding space of streets using the t-SNE method and apply class activation mapping methods to interpret the features in street imagery contributing to output classification from a model., Comment: Paper to appear at IEEE Big Data 2019

Published

2019

4. Demographical Priors for Health Conditions Diagnosis Using Medicare Data

Author

Alhasoun, Fahad, Alhazzani, May, and González, Marta C.

Subjects

Statistics - Applications, Statistics - Machine Learning

Abstract

This paper presents an example of how demographical characteristics of patients influence their susceptibility to certain medical conditions. In this paper, we investigate the association of health conditions to age of patients in a heterogeneous population. We show that besides the symptoms a patients is having, the age has the potential of aiding the diagnostic process in hospitals. Working with Electronic Health Records (EHR), we show that medical conditions group into clusters that share distinctive population age densities. We use Electronic Health Records from Brazil for a period of 15 months from March of 2013 to July of 2014. The number of patients in the data is 1.7 million patients and the number of records is 47 million records. The findings has the potential of helping in a setting where an automated system undergoes the task of predicting the condition of a patient given their symptoms and demographical information., Comment: NIPS 2016 Workshop on Machine Learning for Health

Published

2016

5. Characterizing Urban Mobility Patterns: A Case Study of Mexico City

Author

Melikov, Pierre, Kho, Jeremy A., Fighiera, Vincent, Alhasoun, Fahad, Audiffred, Jorge, Mateos, José L., González, Marta C., Farnaz Arefian, Fatemeh, Editorial Board Member, Batty, Michael, Editorial Board Member, Davoudi, Simin, Editorial Board Member, DeVerteuil, Geoffrey, Editorial Board Member, Kirby, Andrew, Editorial Board Member, Kropf, Karl, Editorial Board Member, Lucas, Karen, Editorial Board Member, Maretto, Marco, Editorial Board Member, Neuhaus, Fabian, Editorial Board Member, Nijhuis, Steffen, Editorial Board Member, Aráujo de Oliveira, Vitor Manuel, Editorial Board Member, Silver, Christopher, Editorial Board Member, Strappa, Giuseppe, Editorial Board Member, Vojnovic, Igor, Editorial Board Member, Whitehand, Jeremy W. R., Editorial Board Member, Yamu, Claudia, Editorial Board Member, Shi, Wenzhong, editor, Goodchild, Michael F., editor, Kwan, Mei-Po, editor, and Zhang, Anshu, editor

Published

2021

6. Age density patterns in patients medical conditions: A clustering approach.

Author

Alhasoun, Fahad, Aleissa, Faisal, Alhazzani, May, Moyano, Luis, Pinhanez, Claudio, and González, Marta

Subjects

Age Factors, Algorithms, Brazil, Cluster Analysis, Disease, Epidemiologic Methods, Epidemiology, Female, Humans, International Classification of Diseases, Male, Sex Factors

Abstract

This paper presents a data analysis framework to uncover relationships between health conditions, age and sex for a large population of patients. We study a massive heterogeneous sample of 1.7 million patients in Brazil, containing 47 million of health records with detailed medical conditions for visits to medical facilities for a period of 17 months. The findings suggest that medical conditions can be grouped into clusters that share very distinctive densities in the ages of the patients. For each cluster, we further present the ICD-10 chapters within it. Finally, we relate the findings to comorbidity networks, uncovering the relation of the discovered clusters of age densities to comorbidity networks literature.

Published

2018

7. Urban Attractors: Discovering Patterns in Regions of Attraction in Cities

Author

Alhazzani, May, Alhasoun, Fahad, Alawwad, Zeyad, and González, Marta C.

Subjects

Computer Science - Social and Information Networks

Abstract

Understanding the dynamics by which urban areas attract visitors is significant for urban development in cities. In addition, identifying services that relate to highly attractive districts is useful to make policies regarding the placement of such places. Thus, we present a framework for classifying districts in cities by their attractiveness to visitors, and relating Points of Interests (POIs) types to districts' attraction patterns. We used Origin-Destination matrices (ODs) mined from cell phone data that capture the flow of trips between each pair of places in Riyadh, Saudi Arabia. We define the attraction profile for a place based on three main statistical features: The amount of visitors a place received, the distribution of distance traveled by visitors on the road network, and the spatial spread of where visitors come from. We use a hierarchical clustering algorithm to classify all places in the city by their features of attraction. We detect three types of Urban Attractors in Riyadh during the morning period: Global which are significant places in the city, Downtown which the central business district and Residential attractors. In addition, we uncover what makes these places different in terms of attraction patterns. We used a statistical significance testing approach to rigorously quantify the relationship between Points of Interests (POIs) types (services) and the 3 patterns of Urban Attractors we detected. The proposed framework can be used for detecting the attraction patterns given by type of services related to each pattern. This is a critical piece of information to inform trip distribution models.

Published

2016

8. The path most travelled: Mining road usage patterns from massive call data

Author

Toole, Jameson L., Colak, Serdar, Alhasoun, Fahad, Evsukoff, Alexandre, and Gonzalez, Marta C.

Subjects

Physics - Physics and Society, Computer Science - Social and Information Networks, H.2.8, J.4

Abstract

Rapid urbanization places increasing stress on already burdened transportation systems, resulting in delays and poor levels of service. Billions of spatiotemporal call detail records (CDRs) collected from mobile devices create new opportunities to quantify and solve these problems. However, there is a need for tools to map new data onto existing transportation infrastructure. In this work, we propose a system that leverages this data to identify patterns in road usage. First, we develop an algorithm to mine billions of calls and learn location transition probabilities of callers. These transition probabilities are then upscaled with demographic data to estimate origin-destination (OD) flows of residents between any two intersections of a city. Next, we implement a distributed incremental traffic assignment algorithm to route these flows on road networks and estimate congestion and level of service for each roadway. From this assignment, we construct a bipartite usage network by connecting census tracts to the roads used by their inhabitants. Comparing the topologies of the physical road network and bipartite usage network allows us to classify each road's role in a city's transportation network and detect causes of local bottlenecks. Finally, we demonstrate an interactive, web-based visualization platform that allows researchers, policymakers, and drivers to explore road congestion and usage in a new dimension. To demonstrate the flexibility of this system, we perform these analyses in multiple cities across the globe with diverse geographical and sociodemographic qualities. This platform provides a foundation to build congestion mitigation solutions and generate new insights into urban mobility., Comment: submitted to KDD 2014

Published

2014

9. Street context of various demographic groups in their daily mobility

Author

Salgado, Ariel, Li, Weixin, Alhasoun, Fahad, Caridi, Inés, and Gonzalez, Marta

Published

2021

10. Street context of various demographic groups in their daily mobility

Author

Massachusetts Institute of Technology. Department of Civil and Environmental Engineering, Salgado, Ariel, Li, Weixin, Alhasoun, Fahad, Caridi, Inés, Gonzalez, Marta, Massachusetts Institute of Technology. Department of Civil and Environmental Engineering, Salgado, Ariel, Li, Weixin, Alhasoun, Fahad, Caridi, Inés, and Gonzalez, Marta

Abstract

We present an urban science framework to characterize phone users’ exposure to different street context types based on network science, geographical information systems (GIS), daily individual trajectories, and street imagery. We consider street context as the inferred usage of the street, based on its buildings and construction, categorized in nine possible labels. The labels define whether the street is residential, commercial or downtown, throughway or not, and other special categories. We apply the analysis to the City of Boston, considering daily trajectories synthetically generated with a model based on call detail records (CDR) and images from Google Street View. Images are categorized both manually and using artificial intelligence (AI). We focus on the city’s four main racial/ethnic demographic groups (White, Black, Hispanic and Asian), aiming to characterize the differences in what these groups of people see during their daily activities. Based on daily trajectories, we reconstruct most common paths over the street network. We use street demand (number of times a street is included in a trajectory) to detect each group’s most relevant streets and regions. Based on their street demand, we measure the street context distribution for each group. The inclusion of images allows us to quantitatively measure the prevalence of each context and points to qualitative differences on where that context takes place. Other AI methodologies can further exploit these differences. This approach presents the building blocks to further studies that relate mobile devices’ dynamic records with the differences in urban exposure by demographic groups. The addition of AI-based image analysis to street demand can power up the capabilities of urban planning methodologies, compare multiple cities under a unified framework, and reduce the crudeness of GIS-only mobility analysis. Shortening the gap between big data-driven analysis and traditional human classification analysis

Published

2021

11. Urban attractors: Discovering patterns in regions of attraction in cities

Author

Massachusetts Institute of Technology. Center for Computational Engineering, Alhazzani, May, Alhasoun, Fahad, Alawwad, Zeyad, González, Marta C, Massachusetts Institute of Technology. Center for Computational Engineering, Alhazzani, May, Alhasoun, Fahad, Alawwad, Zeyad, and González, Marta C

Abstract

Understanding the dynamics by which urban areas attract visitors is important in today’s cities that are continuously increasing in population towards higher densities. Identifying services that relate to highly attractive districts is useful to make policies regarding the placement of such places. Thus, we present a framework for classifying districts in cities by their attractiveness to daily commuters and relating Points of Interests (POIs) types to districts’ attraction patterns. We used Origin-Destination matrices (ODs) mined from cell phone data that capture the flow of trips between each pair of places in Riyadh, Saudi Arabia. We define the attraction profile for a place based on three main statistical features: The number of visitors a place received, the distribution of distance traveled by visitors on the road network, and the spatial spread of locations from where trips started. We used a hierarchical clustering algorithm to classify all places in the city by their features of attraction. We discovered three main types of Urban Attractors in Riyadh during the morning period: Global, which are significant places in the city, Downtown, which contains the central business district, and Residential attractors. In addition, we uncovered what makes districts possess certain attraction patterns. We used a statistical significance testing approach to quantify the relationship between Points of Interests (POIs) types (services) and the patterns of Urban Attractors detected.

Published

2021

12. Probabilistic Programming Bots in Intuitive Physics Game Play

Author

Alhasoun, Fahad, primary and Alneghiemish, Sarah, additional

Published

2021

13. Age density patterns in patients medical conditions: A clustering approach

Author

Massachusetts Institute of Technology. Department of Civil and Environmental Engineering, Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology. Institute for Data, Systems, and Society, Massachusetts Institute of Technology. Computation for Design and Optimization Program, Program in Media Arts and Sciences (Massachusetts Institute of Technology), Alhasoun, Fahad, Aleissa, Faisal Saad, Alhazzani, May, Pinhanez, Claudio S., Gonzalez, Marta C., Moyano, Luis G., Massachusetts Institute of Technology. Department of Civil and Environmental Engineering, Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology. Institute for Data, Systems, and Society, Massachusetts Institute of Technology. Computation for Design and Optimization Program, Program in Media Arts and Sciences (Massachusetts Institute of Technology), Alhasoun, Fahad, Aleissa, Faisal Saad, Alhazzani, May, Pinhanez, Claudio S., Gonzalez, Marta C., and Moyano, Luis G.

Abstract

This paper presents a data analysis framework to uncover relationships between health conditions, age and sex for a large population of patients. We study a massive heterogeneous sample of 1.7 million patients in Brazil, containing 47 million of health records with detailed medical conditions for visits to medical facilities for a period of 17 months. The findings suggest that medical conditions can be grouped into clusters that share very distinctive densities in the ages of the patients. For each cluster, we further present the ICD-10 chapters within it. Finally, we relate the findings to comorbidity networks, uncovering the relation of the discovered clusters of age densities to comorbidity networks literature.

Published

2018

14. Understanding and modeling human movement in cities using phone data

Author

Marta C. González and Una-May O'Reilly., Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science., Massachusetts Institute of Technology. Computation for Design and Optimization Program., Alhasoun, Fahad, Marta C. González and Una-May O'Reilly., Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science., Massachusetts Institute of Technology. Computation for Design and Optimization Program., and Alhasoun, Fahad

Abstract

Thesis: S.M., Massachusetts Institute of Technology, Computation for Design and Optimization Program, 2016., S.M. !c Massachusetts Institute of Technology, Department of Electrical Engineering and Computer Science 2016, Cataloged from PDF version of thesis., Includes bibliographical references (pages 83-88)., Cities today are strained by the exponential growth in population where they are homes to the majority of world's population. Understanding the complexities underlying the emerging behaviors of human travel patterns on the city level is essential toward making informed decision-making pertaining to urban transportation infrastructures This thesis includes several attempts towards modeling and understanding human mobility at the scales of individuals and the scale of aggregate population movement. The second chapter includes the development of a browser delivering visual insights of the aggregate behavior of populations in cities. The third chapter provides a computational framework for clustering regions in cities based on their attraction behavior and in doing so aids a predictive model in predicting inflows to newly developed regions. The fourth chapter investigates the patterns of individuals' movement at the city scale towards developing a predictive model for a persons' next visited location. The predictive accuracy is then increased by adding movement information of the population. The motivation behind the work of this thesis is derived from the demand of tools that provides fine-grained analysis of the complexity of human travel within cites. The approach takes advantage of the existing built infrastructures to sense the mobility of people eliminating the financial and temporal burdens of traditional methods. The outcomes of this work will assist both planners and the public in understanding the complexities of human mobility within their cities., by Fahad Alhasoun., S.M., S.M. !c Massachusetts Institute of Technology, Department of Electrical Engineering and Computer Science

Published

2017

15. Age density patterns in patients medical conditions: A clustering approach

Author

Fahad Alhasoun, Marta C. González, Luis Gregorio Moyano, Faisal Aleissa, Claudio S. Pinhanez, May Alhazzani, Massachusetts Institute of Technology. Department of Civil and Environmental Engineering, Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology. Institute for Data, Systems, and Society, Massachusetts Institute of Technology. Program in Computation for Design and Optimization, Program in Media Arts and Sciences (Massachusetts Institute of Technology), Alhasoun, Fahad, Aleissa, Faisal Saad, Alhazzani, May, Pinhanez, Claudio S., and Gonzalez, Marta C.

Subjects

0301 basic medicine, Male, Viral Diseases, Medical Doctors, Epidemiology, Health Care Providers, purl.org/becyt/ford/1.7 [https], Health records, Geographical locations, purl.org/becyt/ford/1 [https], 0302 clinical medicine, Elderly, Chickenpox, Medicine and Health Sciences, Cluster Analysis, Disease, Medical Personnel, lcsh:QH301-705.5, COMPLEX NETWORKS, Geriatrics, Heterogeneous sample, Ecology, Age Factors, Professions, Geography, Infectious Diseases, Computational Theory and Mathematics, Modeling and Simulation, Female, HEALTHCARE, Algorithms, Brazil, Research Article, medicine.medical_specialty, Large population, Age and sex, 03 medical and health sciences, Cellular and Molecular Neuroscience, DATA ANALYSIS, Sex Factors, Age Distribution, Population Metrics, International Classification of Diseases, Diagnostic Medicine, Genetics, medicine, Humans, In patient, Cluster analysis, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Population Density, Population Biology, Biology and Life Sciences, South America, medicine.disease, Comorbidity, Health Care, 030104 developmental biology, lcsh:Biology (General), Age Groups, Population Groupings, People and places, COMORBIDITY, Epidemiologic Methods, 030217 neurology & neurosurgery, Demography

Abstract

This paper presents a data analysis framework to uncover relationships between health conditions, age and sex for a large population of patients. We study a massive heterogeneous sample of 1.7 million patients in Brazil, containing 47 million of health records with detailed medical conditions for visits to medical facilities for a period of 17 months. The findings suggest that medical conditions can be grouped into clusters that share very distinctive densities in the ages of the patients. For each cluster, we further present the ICD-10 chapters within it. Finally, we relate the findings to comorbidity networks, uncovering the relation of the discovered clusters of age densities to comorbidity networks literature., Author summary Age and sex of a patient can be directly related to susceptibilities to certain medical conditions. We present a method to generate clusters of human phenotype, based on the age of the population. This method helps extract knowledge on age and sex from the data. The age and sex correlations with disease conditions can help in a task of predicting the susceptibility of incoming patients to conditions.

Published

2017